1271 / 1271
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Aafiya Aafiya
(University of Kansas)
- Co-author in M1Po3A-03: The Effect of Calcium Doped Y-Ba-Cu-O (CaY123) Layer Thickness on the Flux Pinning in (CaY123 / BaZrO3 Doped Y-Ba-Cu-O) Multilayer Composite Films at a Wide Range of Temperatures and Applied Fields
- Co-author in M2Or4B-02: Role of Ca diffusion in BaZrO3 nanorods/YBa2Cu3O7-x multilayer nanocomposite films
- Emna Abassi
- Isao Abe (ITER organization)
- Sophia Abi-Saad
- Dmytro Abraimov (NHMFL)
- Jack Acres (UKIFS)
- Kazuhisa Adachi (SWCC)
-
Mark Adamowski
(Fermilab)
- Co-author in C1Or4B-01: LBNF/DUNE Liquid Argon Roadmap
- Co-author in C1Or4B-02: Overview and status of the Long-Baseline Neutrino Facility Far Detectors cryogenics system
- Co-author in C1Po3C-02: Ensuring High-Purity Liquid Argon for the LBNF FDC: Collaborative Cryogenics Research Between UNICAMP and Fermilab
- Earl Adams (NASA Armstrong Flight Research Facility)
- Cris Adriano (“Gleb Wataghin” Institute of Physics, UNICAMP, Campinas-SP, 13083-859, Brazil.)
- Akinori Akaike (Meiko Futaba Co., Ltd.)
- Makoto Akiyama (Meiko Futaba Co., Ltd.)
- Abbas Alahyari (RTX Technologies Research Center)
- Alexander Alekseev (Technical University of Munich, TUM School of Engineering and Design, Department of Energy and Process Engineering, Institute of Plant and Process Technology, Garching/Germany; Linde GmbH, Clean Energy Technologies R&D, Pullach/Germany)
- David Aliaga
- Yousef Alihosseini (aMechanical Engineering Department, FAMU-FSU College of Engineering, Florida State University, Tallahassee, FL 32310, USA bNational High Magnetic Field Laboratory, 1800 East Paul Dirac Drive, Tallahassee, FL 32310, USA)
- Yamen Al-Mahmoud (Michigan State University)
- Ishan Ambastha
- Harina Amer Hamzah (Airbus Ltd)
-
Nan An
- Co-author in M1Po3B-04: Assessing the Adhesion of Nanofibrous PVDFHFP as Passive Thermal Control Coatings for the Extraterrestrial Storage of Cryogenic Propellants
- Co-author in M4Or1B-05: Investigating dual electrospinning as a means of enhancing passive thermal control coatings for cryogenic propellant storage in extraterrestrial environments
- Byeungcheol An (Korea Advanced Institute of Science and Technolog)
- Aaron Anderson (NASA Glenn Research Center)
- Ethan Anliker (Argonne National Laboratory)
- Gulio Anniballi (University of Twente)
-
Phillip Ansell
(Univeristy of Illinois at Urbana-Champaign)
- Author in M3Or3A-05: [Invited] A high power two-pole quick connect junction between lightweight cryoresistive and superconducting aerospace power transmission cables
- Co-author in M2Or4A-04: [Invited] Overview and Progress Update on a Superconducting Powertrain for CHEETA
- Co-author in M3Or3A-03: [Invited] Lightweight cryoresistive and superconducting aerospace power transmission cables: experiments and theory
- Scott Anthony (Michigan State University (MSU) - Facility for Rare Isotope Beams (FRIB))
-
Kyle Appel
(Washington State University)
- Author in C1Or4C-02: Comparison of liquid hydrogen tank performance at different storage pressures and operational scenarios using a reduced-order model
- Author in C2Po3D-03: A deployable barrier preventing liquid oxygen accumulation and safety risks during liquid hydrogen transfers
- Co-author in C2Po1D-01: Magnetic field acceleration of catalyzed para- to orthohydrogen conversion for cooling superconducting motors
-
Akanksha Apte
(Stanford University)
- Co-author in C1Or2A-02: LCLS-II Cryoplant Operational Availability: 3 Years of Operation
- Co-author in C1Or2C-02: Quantum Computer Test Facility at SLAC using existing Cryogenic Infrastructure
- Co-author in C1Po1E-04: LCLS-II Cryoplant Cooling Water System: Challenges and Remediation
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
- Co-author in C3Or2B-05: Impact of Power Outage for Large scale cryogenic system operation
- Yoshihiko Arakawa (Technology Research Center, Sumitomo Heavy Industries, Ltd.)
- Diego Arbelaez
-
Gen Ariyoshi
(Japan Atomic Energy Agency)
- Co-author in C2Or2C-05: Development of a simulation code for analyzing pressure and temperature fluctuations in the J-PARC cryogenic moderator system
- Co-author in C2Po1A-05: Performance assessment of liquid hydrogen pump for the ESS cryogenic moderator system during initial commissioning using helium
- Co-author in C2Po3B-05: Numerical estimation of pressure drop of subcooled parahydrogen flow in the ESS Cryogenic Moderator System.
- Benjamin Arline (Florida State University - NHMFL)
- Rocky Armstrong (Oak Ridge National Laboratory)
-
Philipp Arnold
(European Spallation Source ERIC)
- Author in C1Po1E-03: A backup compressor system for the ESS accelerator cryoplant
- Co-author in C1Po1A-06: Updated design of the ESS cryogenic moderator system
- Co-author in C2Po1A-06: Basic design of a 17 kW orifice type heater for the ESS cryogenic moderator system
- Co-author in C2Po1E-04: Commissioning and Initial Operations of the ESS Linac Cryomodules Cryogenic Controls: Achievements and Future Prospect
- Co-author in C3Or4B-03: Commissioning results of the ESS cryogenic moderator system using helium
- Emilio Asensi Conejero (CERN)
- Emilio Asensi Conejero
- Jose Mansur Assaf (CPqMAE - The Research Center on Advanced Materials and Energy, Federal University of São Carlos (UFSCar), São Carlos, 13565-905, Brazil.)
- Milind Atrey
- Anthony Attard (CEA)
- Kurt Aulenbacher
-
Gilles Authelet
(CEA Paris-Saclay)
- Author in C1Po1C-03: Parametric thermal characterization of Sumitomo RDE-418D4 two-stage Gifford-McMahon cryocooler
- Co-author in C1Po3A-05: Experimental study of two thermally-connected hydraulically- independent 20-tube neon pulsating heat pipes working in parallel
- Co-author in C3Or3B-05: Large diameter helium pulsating heat pipe as promising thermal link for cryocooler-cooled superconducting magnet systems
- Co-author in C3Or3B-06: Compact nitrogen pulsating heat pipes – Experimental thermal analysis with numerical insights
- Ignacio Aviles Santillana (CERN)
- Gage Avonce (Hyper Tech Research Inc.)
-
Rodney Badcock
- Co-author in C2Po3D-02: Experimental results from the cryogenic cooling of a rotor using an internal pump
- Co-author in C3Or4C-08: Numerical investigation & optimisation of a small-scale travelling-wave thermoacoustic Stirling cryocooler
- Co-author in M3Or3A-02: [Invited] Liquid hydrogen cooling of superconducting motor AC windings
- Co-author in M3Or4A-01: [Invited] 3D Numerical Modelling of AC Loss of Multifilamentary MgB2 Wires at 20 K
- Seungwhan Baek
- Lars Baetcke (Institute for Maritime Energy Systems, German Aerospace Center (DLR), Dünebergerstraße 108, Geesthacht, 21502, Schleswig-Holstein, Germany)
- Daniel Bafia
- Himanshu Bahirat (IIT Bombay)
- Ye Bai (Brookhaven National Lab)
- Hongyu Bai (National High Magnetic Fied Laboratory)
- Jong H. Baik (GenH2)
- Stephen Baker (NASA Johnson Space Center)
-
Shreyas Balachandran
- Author in M1Or1A-01: Microstructure and 77K mechanical properties of electron beam welded Cu101- Inconel 625 joints
- Author in M1Po3B-05: Inconel 625 flange development for Cu-based superconducting radio frequency cavities
- Co-author in M2Or2A-03: Low-Temperature Fatigue and Fracture Properties of Maraging C250 Steel
- Co-author in M2Po3C-01: Investigating the microstructure of cold-worked and annealed SRF Niobium using Shannon Entropy
- Co-author in M2Po3C-02: Enhancing Flux Expulsion Through Microstructural Control in Superconducting Radiofrequency Cavities Made from Cold-Worked Niobium
- Co-author in M2Po3C-03: Impact of retained cold work on the microstructure and fabrication of SRF Nb cavities
- Thanatheepan Balachandran (HInetics Inc)
- Ramaswamy Balasubramaniam (Case Western Reserve University)
- Tomasz Banaszkiewicz (Wrocław University of Science and Technology)
- Sanjay Banerjee (The University of Texas at Austin)
- Dipanshu Bansal (Indian Institute of Technology Bombay)
- Shiran Bao (Zhejiang University)
- Shiran Bao (Zhejiang University)
- Franck BARACCO (ITER Organization)
- Maria Barba (Fermilab)
- Serena Barbanotti
-
Thomas Barbe
(CERN)
- Co-author in C3Or4B-01: Operation of CERN’s major tests facility with upgraded cryogenic infrastructure for superconducting magnets, power links, inner triplets String and radio-frequency cavities for HL-LHC
- Co-author in C3Or4B-02: Upgrade of the CERN cryogenic test facility for the HL-LHC superconducting magnets and superconducting links
- Pierre Barjhoux
- Martin Bartholet (Celeroton AG)
- Shaon Barua
- Emanuela Barzi (Fermilab)
- Emanuela Barzi (Ohio State University)
- Nishanthi Baskar (European Spallation Source ERIC)
- Bertrand Baudouy (CEA Paris-Saclay)
-
Bertrand Baudouy
(CEA Paris-Saclay)
- Author in C3Or3B-05: Large diameter helium pulsating heat pipe as promising thermal link for cryocooler-cooled superconducting magnet systems
- Co-author in C1Po3A-05: Experimental study of two thermally-connected hydraulically- independent 20-tube neon pulsating heat pipes working in parallel
- Co-author in C3Or3B-06: Compact nitrogen pulsating heat pipes – Experimental thermal analysis with numerical insights
- Phoenix Bauer (HInetics Inc)
- Peter Baumann (Linde Kryotechnik AG)
- Jason Baxter (West Coast Solutions)
-
Zachary Beadle
(Washington State University)
- Author in C1Po3B-04: Development of the Cool Fuel School: a comprehensive hands-on cryogenic hydrogen design and safety program
- Co-author in M1Po3B-02: Mechanical characterization of pure Nb at cryogenic temperatures
- Co-author in M4Or1B-03: Piezometric properties of 3D-printed composites at cryogenic temperatures
- rosalyn beckwith (Fermilab)
- Harro Beens
- Amit Behera (Commonwealth Fusion Systems)
- Theophile Arthur Benoit (Université Paris-Saclay (FR))
- Jacopo Bernardini (Fermi National Accelerator Laboratory)
- Jean-Marc Bernhardt (Air Liquide Advanced Technologies)
- Noelle BESSE (Air Liquide Advanced Technologies)
-
Yannick Beßler
- Author in C2Po3D-01: Design, manufacturing & commissioning of the high brightness liquid para-hydrogen moderator for the European Spallation Source
- Co-author in C1Po1A-06: Updated design of the ESS cryogenic moderator system
- Co-author in C3Or3B-01: High pressure burst tests at cryogenic temperatures
- Magda B. Fontes (The Brazilian Center for Research in Physics (CBPF), Rio de Janeiro-RJ, 22290-180, Brazil.)
- Ritendra Bhattacharya
- George Biallas (Hyperboloid LLC)
- Wojciech Binczyk (European Spallation Source ERIC)
- Henrik-Gerd Bischoff (Technische Universität Dresden)
- Stefan Bischoff (Linde Kryotechnik AG)
- Rowan Bjarnson (TRIUMF)
- Flor de Maria Blaszczyk (Fermi National Accelerator Laboratory, PO Box 500, Batavia IL 60510, United States)
- Friederike Boehm
- Uijong Bong (Hinetics, Inc.)
- francois bonne
- Ian Bonnett (ITER Organization)
- Trent Boritz (Florida State University)
- Rick Bossert (Fermilab)
- Tommaso Botto (ASG Superconductors)
-
Paul BOUTOT
(Air Liquide)
- Co-author in C3Or3D-02: ITER LHe plants first tests results
- Yury Bozhko
- Peter Bradley
-
Benjamin Bradu
(CERN)
- Author in C1Or2A-05: Operation experience with a 1.8 K refrigeration unit during the 2024 LHC physics run at CERN
- Author in C2Po1B-01: LHC cryogenic system adaptation and recovery after a major insulation vacuum breakage in a final focusing superconducting magnet in 2023
- Co-author in C3Po1B-03: How digital twins can help with operator training, an example with ATLAS and CMS detector’s cryogenics at CERN
- Johan Bremer (CERN)
- Arkadiusz Brenk (Wroclaw University of Science and Technology)
- Adam Brodecki (Institute of Fundamental Technological Research PAS)
- Liam Brown
- Jamia Brown (Applied Superconductivity Center - NHMFL)
- Gerald Brown (NASA Glenn Research Center)
- Romain Bruce (Fermilab)
- Brian Buchholtz (BAE Systems Inc.)
- Bernd Büchner (Leibniz-Institut für Festkörper- und Werkstoffforschung Dresden e. V.)
- Tom Bullard (UES, Inc.)
- Tom Bullard (UES Inc.)
- Earle Burkhardt (Oak Ridge National Laboratory)
- Lennard Niclas Busch
- Corey Butler (Thomas Jefferson National Accelerator Facility)
- Holly Butson (Auckland University of Technology, 55 Wellesley St E, Auckland 1010, New Zealand)
- John Buttles (The Thomas Jefferson National Accelerator Facility)
- Marco Buzio (CERN)
- Paolo Cacace (Sapienza Universita e INFN, Roma I (IT))
-
Annett Cady
- Author in Upload your presentation here
-
Jinghui Cai
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China)
- Co-author in C1Po1B-02: 1 W@28.2 K micro single-stage coaxial pulse tube cryocooler operating at 52 Hz using precooling
- Co-author in C1Po1B-03: Influence of the structure of multi-bypass configuration regenerator on the performance of Pulse Tube Cryocooler
- Co-author in C1Po1D-01: Research on an efficient Joule-Thomson throttling refrigeration system based on cold compression cycle
- Jinghun Cai (1 Key Laboratory of Technology on Space Energy Conversion, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China)
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John Campbell
(Intelligas Consulting J.R. Campbell & Associates, Inc)
- Co-author in C1Or4B-01: LBNF/DUNE Liquid Argon Roadmap
- Elisa Cannone (Istituto di Geoscienze e Georisorse, CNR)
- C.G. Cantemir (The Ohio State University)
- wenqing Cao (University of Science and Technology of China)
- Horus Cardona (European Spallation Source ERIC)
- José Cardoso (European Spallation Source ERIC)
- Dilson Cardoso (CPqMAE - The Research Center on Advanced Materials and Energy, Federal University of São Carlos (UFSCar), São Carlos, 13565-905, Brazil.)
- Matthew Carl (ATI Specialty Alloys & Components)
- Eric Carlberg
-
Fabio Casagrande
(Michigan State University)
- Co-author in C1Or4B-06: Design, fabrication and installation of the refurbished K500 cyclotron cryogenic distribution system for MSU chip testing facility
- Co-author in C2Or2C-01: Analysis of quench safety and cryogenic energy recovery for FRIB High Transmission Beam Line magnets
- Co-author in C3Or2B-01: Development and verification of a steady-state operating methodology for wide-range operation of 2K cold compressor system
- Co-author in C3Or2B-02: Development and verification of a transient operating methodology for pump-down operation of 2K cold compressor system
- Juan Casas-Cubillos (CERN)
- Nathaly Andrea Castaneda Quintero (University of Houston)
- L. Cattafesta (Illinois Institute of Technology, Chicago, Illinois USA)
-
Alan Caughley
(Callaghan Innovation)
- Author in C2Po3D-02: Experimental results from the cryogenic cooling of a rotor using an internal pump
- Co-author in C1Or2B-01: A dynamic simulation model for gas guided pistons in Stirling machines
- Co-author in C3Or4C-08: Numerical investigation & optimisation of a small-scale travelling-wave thermoacoustic Stirling cryocooler
- Co-author in M3Or3A-02: [Invited] Liquid hydrogen cooling of superconducting motor AC windings
- Dogan Celik (GE Healthcare)
- Sheng-Hsiung Chang (National Synchrotron Radiation Research Center)
- Ho-Myung Chang
- Nicolas Chantant
- Nikolaos Chatzipapas (CERN)
-
Peter Cheetham
(FAMU-FSU College of Engineering)
- Author in C2Or4C-06: Modeling and Analysis of Graded Heat Exchangers for Cryogenic Power System of Electric Aircraft Using the AeroCryoX
- Author in M2Or4A-03: [Invited] The “IZEA-light” zero-emission aviation conceptual design
- Author in M3Or3A-04: [Invited] Cryogenic Bus Bar Design for Electric Aircraft Power Distribution
- Author in M4Or1A-03: [Invited] AeroCryoX: A Comprehensive Library of Cryogenic Power System Component Models for Designing Electric Aircraft
- Co-author in C3Or3A-02: Testbed for high current and high voltage characterization of gaseous helium cooled HTS power cables for electric transport systems
- Co-author in C3Or4A-03: Transient system-level cryogenic thermal management models of liquid hydrogen-fueled electric aircraft
- Co-author in M3Or3A-01: [Invited] Cryogenic Thermal Management of Power Conversion Devices on Liquid Hydrogen Fueled Electric Aircraft
- Co-author in M4Or1A-04: [Invited] Liquid Hydrogen for Sustainable Energy Systems: Latest Development, Challenges and Opportunities
- Peter Cheetham
-
Liubiao Chen
- Author in C1Po1C-05: Study on the multiple cooling output characteristics of a gas-coupled high-frequency pulse tube cryocooler
- Author in C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- Author in C1Po3C-01: A study of the whole life cycle carbon emission of liquid air energy storage system
- Author in C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- Author in C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- Author in C1Po3D-02: Study on Helium Adsorption Properties of Carbon Nanotubes in the Liquid Helium Temperature Range Based on the Monte Carlo Method
- Author in C1Po3D-03: Measurement of Apparent Thermal Conductivity of Insulation Materials at Cryogenic Temperatures
- Author in C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- Author in C2Po3D-09: A Liquid Air Energy Storage (LAES) System Utilizing Upgraded LNG Cold Energy for Air Liquefaction
- Author in C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- Author in C3Po1D-08: Stress Distribution and Sealing Performance Analysis of Metal Sealing Joints in Liquid Hydrogen Pipelines
- Author in C3Po1D-09: Simulation Study on the Thermal Insulation Performance of Liquid Hydrogen Transport Pipelines
- Author in C3Po1F-04: Study on Cryogenic Fluid Circulation Loops for Efficient Heat Transfer of Small Cooling Capacities in the 4-20 K Temperature Range
- Co-author in C2Po3C-01: Thermodynamic and mechanical properties of solid-phase media for moving cryogenic energy storage packed beds
-
Shixiong Chen
- Author in C1Po3D-05: Simulation Research on the Transient Characteristics of the Helium Turbine Expander
- Author in C2Po1A-07: Pre-design and efficiency analysis of electric generator brake cryogenic helium turbine expender
- Author in C2Po1A-08: Analysis of unbalance response of the rotor of a typical cryogenic turbine for helium refrigerator under thermal effect
- Ye Chen (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, China)
- Feiyi Chen (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Feng CHEN (Air Liquide Cryogenic China Science)
- Weibo Chen
-
Houlei Chen
(1 Key Laboratory of Technology on Space Energy Conversion, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China 2University of Chinese Academy of Sciences, Beijing 100190, China)
- Author in C1Po1B-10: Research on the Influence of Average Pressure on the Thermodynamic Cycle and Performance of Pulse Tube Cryocoolers
- Co-author in C1Po1B-02: 1 W@28.2 K micro single-stage coaxial pulse tube cryocooler operating at 52 Hz using precooling
- Co-author in C1Po1B-04: A high frequency lightweight coaxial pulse tube cryocooler operating at 70 K
- Co-author in C1Po1B-09: Simulation and experimental of phase shifter in high frequency pulse tube cryocooler
- Co-author in C1Po1D-02: Design and experiments of 1 K superfluid 4He system for precooling the ultra-low temperature refrigerators
- Co-author in C1Po1D-03: Simulation and experimental study of ultra-low temperature heat transfer characteristics of continuous heat exchangers in the dilution refrigerator
- Co-author in C2Po1A-09: Development of the linear Compressor of 152Hz Micro Pulse Tube Cryocooler
- Co-author in C3Po1E-04: Design and testing of a tin superconducting heat switch for adiabatic demagnetization refrigerators
- Shuai Chen (Lihan Cryogenics Co., Ltd.)
-
Santosh Chetri
(Applied Superconductivity Center, NHMFL-FSU, Tallahassee)
- Author in M2Po3C-03: Impact of retained cold work on the microstructure and fabrication of SRF Nb cavities
- Co-author in M2Po3C-01: Investigating the microstructure of cold-worked and annealed SRF Niobium using Shannon Entropy
- Co-author in M2Po3C-02: Enhancing Flux Expulsion Through Microstructural Control in Superconducting Radiofrequency Cavities Made from Cold-Worked Niobium
- Johnson Cheung (TRIUMF)
- Jeffery Chin (NASA Glenn Research Facility)
- Wen-Song Chiou (National Synchrotron Radiation Research Center)
- Guram Chlachidze
- Jongho Choi (SuperGenics Co. Ltd., Changwon, South Korea)
-
Yoonhyuck Choi
(Facility for Rare Isotope Beams at Michigan State University)
- Author in M1Po3C-02: Structural analysis and field mapping test setup of the quadrupole triplet magnet for HRS project
- Author in M3Or1A-02: Design, fabrication, and testing of the quadrupole triplet magnet for the HRS project
- Co-author in C2Or2C-01: Analysis of quench safety and cryogenic energy recovery for FRIB High Transmission Beam Line magnets
- Eun-Sang Choi (National High Magnetic Field Laboratory FSU)
- Youngjun Choi (Changwon National University, Department of Smart Manufacturing Engineering, Changwon, South Korea)
-
Maciej Chorowski
- Author in C3Or3B-02: Cryogenics in the drilling of deep, multi kilometer geothermal wells
- Co-author in C2Po1B-03: Design of the Tunnel Transfer line of PIP-II Cryogenic Distribution System
- Co-author in C2Po1B-04: PIP-II Cryogenic Distribution System – status and outlook
- Co-author in C3Po1C-03: Modeling of the Cryogenic Liquid Regasification Process with Consideration of Evaporation and Superheating
- Abhijeet Choudhury (Purdue University)
- Ketan Choukekar (Oak Ridge National Laboratory)
- Dakota Christian (Jefferson Science Associates)
- Ping-Shun Chuang
- Yunchul Chung (Pusan National University)
- Yeonsei Chung (Institute for Basic Science)
- Gitogo Churu (LeTourneau University)
- gianluigi ciovati (j)
- Trevor Clark (Commonwealth Fusion Systems)
- Steve Clark (L3Harris Technologies)
- Aaron Coleman (Oak Ridge National Laboratory)
-
Edward Collings
(The Ohio State University)
- Author in M1Po3C-03: Thermal Modeling of CCT Dipole Magnets wound using Defected REBCO Cables
- Author in M2Po3E-02: Contact resistance effect on current sharing in defected superconducting REBCO tape stack cables: FEM modeling
- Co-author in C3Po1C-05: Experimental study on inclined two-phase flow cooling of multi-stranded aluminum cable
- Co-author in M2Po3D-03: Modeling and Analysis of Magnetization in ReBCO Coated Tape Conductor and Helical Wound Tape Conductors
- Co-author in M3Or2A-04: Investigating the impact of tensile stress-induced/annealing-affected dislocation and grain boundary on the performance of High Purity Aluminum Wire by EBSD.
- Co-author in M3Or3B-06: Flux Jumping in High Magnetic Fields for Stack Tape Cables and its Mitigation
-
Edward Collings
- Co-author in M2Or1A-04: FEM and Modelica Modelling of Current Sharing in Tape Stack Cables; Influence of ICR, ITR, Defect Number, Defect Patterns, and Thermal Boundary Conditions
- Co-author in M2Po3D-02: Modelica Modelling of HTS Dipole Magnet windings, and the influence of cable defects on Thermal and Electrical Sharing in the Cross Section
- Co-author in M3Or3B-05: Tradeoffs Curves and Penalty Functions for AC losses and Je relevant to high-power-density motor applications and their use in comparing various superconductors and normal metal conductors
- Leire Colomo Zulaika (AMPO POYAM VALVES)
- Stuart Colville
- Michel Combe (CERN)
- Gene Conte (GE HealthCare Technology and Innovation Center, Niskayuna, NY 12309, USA)
- Lance Cooley
- Lance Cooley
- Daniel Correia (“Gleb Wataghin” Institute of Physics, UNICAMP, Campinas-SP, 13083-859, Brazil.)
- Pietro Corsaro (ASG Superconductors)
- Keith Corzine (U. of California Santa Cruz)
- Merinnage Costa
- Merinnage Costa
- Scott Courts (Lake Shore Cryotronics, Inc.)
- Brian Courts
- David Creech (CB&I)
-
Jonathan Creel
(Thomas Jefferson National Accelerator Facility)
- Co-author in C1Or2A-03: Cold compressor performance and energy consumption improvements at Jefferson Lab’s Central Helium Liquefiers
- Co-author in C1Po1E-05: Commissioning Results of The ESR 2 Compressors at JLab
- Co-author in C2Or4B-05: Replacement and expansion of the cryogenic control system for the Electron Ion Collider at Brookhaven National Laboratory
- Co-author in C2Po1F-05: Conceptual design of a replacement 2.1 K cold box for the Spallation Neutron Source Central Helium Liquefier
- Co-author in C3Or2B-04: Performance Testing of the 4kW ESR 2 Refrigerator at JLab
- Joaquim Creus Prats
- Simon CRISPEL
- Gary Croke (Jefferson Science Associates)
- Jean-Francois Croteau (Lawrence Berkeley National Laboratory)
- Jian CUI (ITER)
- Chen Cui (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Guanglong Cui (Insititute of Advanced Science Facilities, Shenzhen)
- Wenhui Cui (Technical Institute of Physics and Chemistry,CAS)
- Marie Cursan (ITER Organisation)
- David Daggett (Universirty of Connecticut)
- Alessio D'Agliano (FNAL)
-
Wei Dai
(Technical Institute Of Physics and Chemistry, Chinese Academy of Sciences)
- Co-author in C2Po1A-02: Research on Optimization Strategies for Heat Switches Based on Helium Adsorption Models
- Co-author in C3Or2A-03: Performance Test and Analysis of a High-Capacity Stirling Type Pulse Tube Cryocooler with Orthogonal Room Temperature Displacers
- Co-author in C3Or2A-04: Numerical Investigation of Alternative Regenerators in Regenerative Cryocoolers Operating Below 20K
- Co-author in C3Or2A-05: Comparison study on a large-scale free-piston Stirling cryocooler
- Co-author in C4Or1A-03: Research on temperature control of Adiabatic Demagnetization Refrigerators
- Co-author in C4Or1A-04: Design and performance testing of the 3-stage ADR
- Chenghao Dai (Hefei Institutes of Physical Science, Chinese Academy of Sciences, University of Science and Technology of China)
- Chenghao Dai (Institute of Plasma Physics, Hefei)
- Claudio Dal Savio (attocube systems AG)
- Helio da Motta (CBPF)
- Arup Kumar Das (Indian Institute of Technology (BHU) Varanasi)
- Luca Dassa (CERN)
- Pascale Dauguet (Air Liquide)
- Marc Daval (CEA Paris-Saclay)
- Avshalom Davidesko (Ariel University)
- Daniel Davis
- Sam Davis (Fusion for Energy)
- Garmt de Jonge (Thales cryogenics)
- Michael Delaney (Fermi National Accelerator Lab. (US))
- Guillaume DELAUTRE (Air Liquide)
- Laurent Delprat (CERN)
- Jonathan Demko (LeTourneau University)
- Brandon Demski
- Yai Pioth Yai Deng (Florida State University)
- John Denison (Oak Ridge National Laboratory)
- Cody Dennett (Commonwealth Fusion Systems)
- Jorgen Depken (German Aerospace Center (DLR))
- Hendrie Derking (Cryoworld BV)
- Pashupati Dhakal (Jefferson Lab)
- Aman Kumar Dhillon (Deutsches Elektronen-Synchrotron DESY)
- Ram Dhuley (Fermi National Accelerator Laboratory)
- Xupeng DING
- Michael DiPirro
- Matthew Disiena (The University of Texas at Austin)
-
Tisha Dixit
(CEA Paris-Saclay)
- Author in C1Po3A-05: Experimental study of two thermally-connected hydraulically- independent 20-tube neon pulsating heat pipes working in parallel
- Co-author in C1Po1C-03: Parametric thermal characterization of Sumitomo RDE-418D4 two-stage Gifford-McMahon cryocooler
- Co-author in C3Or3B-05: Large diameter helium pulsating heat pipe as promising thermal link for cryocooler-cooled superconducting magnet systems
- Co-author in C3Or3B-06: Compact nitrogen pulsating heat pipes – Experimental thermal analysis with numerical insights
- Khang Do (Technical University of Munich, TUM School of Engineering and Design, Department of Energy and Process Engineering, Institute of Plant and Process Technology, Garching, Germany)
- Kyu Hyung Do (Korea Institute of Machinery and Materials)
- Reagan Dodge (Washington State University)
- Johannes Doll (TU Dresden)
- Dave Doll (Hyper Tech Research Inc.)
- Dominik Domagala (S2innnovation)
- Dustin Dombrowski
- Simone Donati (Istituto Nazionale di Fisica Nucleare - Pisa)
- Jun Dong (Fermilab)
- Chiheng Dong (Institute of Electrical Engineering, Chinese Academy of Sciences)
-
Roza Doubnik
(Fermilab)
- Author in C1Po3C-02: Ensuring High-Purity Liquid Argon for the LBNF FDC: Collaborative Cryogenics Research Between UNICAMP and Fermilab
- Co-author in C1Or4B-01: LBNF/DUNE Liquid Argon Roadmap
- Co-author in C1Or4B-02: Overview and status of the Long-Baseline Neutrino Facility Far Detectors cryogenics system
- Matthias Dremel (Fusion for Energy)
- Ben Drillick (BAE Systems Inc.)
- Xiaoji Du (Michigan State University)
-
Jiamin Du
(Technical Institute of Physics and Chemistry)
- Author in C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- Author in C1Po3C-01: A study of the whole life cycle carbon emission of liquid air energy storage system
- Author in C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- Author in C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- Author in C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- Author in C2Po3D-09: A Liquid Air Energy Storage (LAES) System Utilizing Upgraded LNG Cold Energy for Air Liquefaction
- Author in C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- Xiaoji Du (Michigan State University)
- Robert Duckworth
- Paweł Duda
- Marc Dunham (3M)
- Stephen Dunn
- Thierry Dupont (CERN)
- Jean-Louis Durand (Univ. Grenoble Alpes, CEA, IRIG-DSBT, 38000 Grenoble, France)
- Fabien DURAND
- Davide Duri (Univ. Grenoble Alpes, CEA, IRIG, DSBT)
- Matthias Durochat (CEA Paris-Saclay)
- Emillien Durupt (Thales)
- N. Dusschoten (University of Twente, Faculty of Science & Technology, Enschede, The Netherlands)
- Jean-Marc Duval
- David Duval (BAE Systems Inc.)
- Harold Dzigiel (Northrop Grumman)
- Derrick Early (NASA)
- Charles Ebbing (University of Dayton Research Institute)
- Charles Ebbing (University of Dayton Research Institute)
- Sören Ehlers (Institute for Maritime Energy Systems, German Aerospace Center (DLR), Dünebergerstraße 108, Geesthacht, 21502, Schleswig-Holstein, Germany)
- Ryan Ehresman (LeTourneau University)
- Sebastian Eisenhut
- Phlip Eisenlohr (Michigan State University)
- Nuno Elias (European Spallation Source ERIC)
- Veerle Ellenbroek (University of Twente)
- Abraham Engeda (Michigan State University)
- Tomohito Enoki (Toyota Motor Corporation)
- Wouter Eppink (University of Twente)
- Polina Ermoshkina
- Tomas Javier Escamilla Lara (UNAM)
- Christopher Escobar (Lawrence Berkeley National Laboratory)
- Antoine ESCOLEIRA (ITER Organization)
- Horacio Estabridis (Iris Technology Corporation)
- Caroline Fabre (CERN)
- Yannick Fabre
- Robert L Fagaly (Retired - Tristan)
- Nicolò Falcone (Criotec Impianti)
- Xiang Fan (Technical Institute of Physics and Chemistry, CAS)
-
Xiaoyu Fan
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Author in C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- Author in C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- Author in C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- Author in C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- Author in C2Po3D-09: A Liquid Air Energy Storage (LAES) System Utilizing Upgraded LNG Cold Energy for Air Liquefaction
- Author in C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- Chengfei Fan (Hefei Institutes of Physical Science, Chinese Academy of Sciences, University of Science and Technology of China)
- Chengfei Fan
-
Song Fang
(Zhejiang University)
- Author in C1Or4C-07: Experimental Study on Thermodynamic Performance and Lossless Storage of a Vehicle-Mounted Horizontal LH2 Tank
- Co-author in C2Po1D-05: Test platforms for ortho-para hydrogen conversion at cryogenic conditions
- Co-author in C2Po1D-06: Design and Optimization of Efficient Catalyst-filled Spiral Wound Heat Exchangers for Large-Scale Hydrogen Liquefaction Systems
- Co-author in C3Po1D-07: Optimization of liquid hydrogen tank-to-tank transfer: A comparative study of six transfer systems
- Tao Fang (PsiQuantum)
- Ahmed Faraj
- Stefania Farinon (INFN e Universita Genova (IT))
-
Eric Fauve
(STANFORD)
- Co-author in C1Or2A-02: LCLS-II Cryoplant Operational Availability: 3 Years of Operation
- Co-author in C1Or2C-02: Quantum Computer Test Facility at SLAC using existing Cryogenic Infrastructure
- Co-author in C1Po1E-04: LCLS-II Cryoplant Cooling Water System: Challenges and Remediation
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
- Co-author in C3Or2B-05: Impact of Power Outage for Large scale cryogenic system operation
- philippe fazilleau
-
Russell Feder
(Brookhaven National Laboratory)
- Co-author in C1Po1E-02: Assessment of the existing cryogenic central plant for the Electron Ion Collider cryogenic loads at Brookhaven National Laboratory
- Co-author in C2Or4B-05: Replacement and expansion of the cryogenic control system for the Electron Ion Collider at Brookhaven National Laboratory
- Sandor Feher
- Qingsheng Fei (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Stuart Feltham (GE Healthcare)
- Tianshi Feng (Technical Institute of Physics and Chemistry, CAS)
- Raymond Feng (Monta Vista High School)
- Tianshi Feng (Technical Institute of Physics and Chemistry, CAS)
- Frederic Ferrand (CERN)
- Peter Ferrara (Naval Surface Warfare Center, Philadelphia Division)
- Adalberto Ferreira Melo Fonotura (ESS ERIC)
- James Fesmire
- Taylor Fiorenzi (LeTourneau University)
- Bruce Fischer
- Thomas Foo (GE HealthCare Technology and Innovation Center, Niskayuna, NY 12309, USA)
- Julie Foroosh (NASA)
- C. Fralick (Sunpower)
- Kyle Frische (Air Force Institute of Technology)
- Patrick Fröhlich (Celeroton AG)
- Kerry Frohling (Iris Technology Corporation)
- Kazuma Fukui
- Hiroshi Fukuyama (Cryogenic Research Center, The University of Tokyo)
- Ander Gabirondo (AMPO POYAM VALVES)
-
Vanessa Gahier
(CERN)
- Co-author in C2Po1B-01: LHC cryogenic system adaptation and recovery after a major insulation vacuum breakage in a final focusing superconducting magnet in 2023
- Co-author in C3Or4B-01: Operation of CERN’s major tests facility with upgraded cryogenic infrastructure for superconducting magnets, power links, inner triplets String and radio-frequency cavities for HL-LHC
- Co-author in C3Or4B-02: Upgrade of the CERN cryogenic test facility for the HL-LHC superconducting magnets and superconducting links
- Co-author in C3Po1B-03: How digital twins can help with operator training, an example with ATLAS and CMS detector’s cryogenics at CERN
- Wawrzyniec Gaj (Instytut Fizyki Jądrowej im. Henryka Niewodniczańskiego Polskiej Akademii Nauk, Kraków, Poland)
- Antonio Galgaro (Department of Geosciences, UNIPD)
- Giuseppe Gallo (Fermi National Accelerator Lab. (US))
- Francesco Gambioli (Airbus)
- Haoran Gan (Zhejiang University, CN)
- Haoran Gan (Zhejiang University)
- Santhosh Kumar Gandla (Sumitomo (SHI) Cryogenics of America Inc)
- Vishwanath Ganesan
-
Venkatarao Ganni
(Michigan State University)
- Co-author in C1Or4B-06: Design, fabrication and installation of the refurbished K500 cyclotron cryogenic distribution system for MSU chip testing facility
- Co-author in C2Or2C-01: Analysis of quench safety and cryogenic energy recovery for FRIB High Transmission Beam Line magnets
- Co-author in C2Or4C-05: Development and validation of a 1D oil-injected screw compressor model for helium cryogenic system applications
- Co-author in C2Po1A-03: Design and development of a control valve plug for precise control and measurement of cryogenic flow
- Co-author in C3Or2B-01: Development and verification of a steady-state operating methodology for wide-range operation of 2K cold compressor system
- Co-author in C3Or2B-02: Development and verification of a transient operating methodology for pump-down operation of 2K cold compressor system
- Co-author in C3Or3A-05: Experimental investigation of moisture freeze-out in a cryogenic heat exchanger for helium purification
-
Zhaozhao Gao
- Author in C1Po1C-05: Study on the multiple cooling output characteristics of a gas-coupled high-frequency pulse tube cryocooler
- Author in C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- Author in C1Po3C-01: A study of the whole life cycle carbon emission of liquid air energy storage system
- Author in C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- Author in C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- Author in C1Po3D-02: Study on Helium Adsorption Properties of Carbon Nanotubes in the Liquid Helium Temperature Range Based on the Monte Carlo Method
- Author in C1Po3D-03: Measurement of Apparent Thermal Conductivity of Insulation Materials at Cryogenic Temperatures
- Author in C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- Author in C2Po3C-01: Thermodynamic and mechanical properties of solid-phase media for moving cryogenic energy storage packed beds
- Author in C2Po3D-09: A Liquid Air Energy Storage (LAES) System Utilizing Upgraded LNG Cold Energy for Air Liquefaction
- Author in C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- Author in C3Po1D-08: Stress Distribution and Sealing Performance Analysis of Metal Sealing Joints in Liquid Hydrogen Pipelines
- Author in C3Po1D-09: Simulation Study on the Thermal Insulation Performance of Liquid Hydrogen Transport Pipelines
- Author in C3Po1F-04: Study on Cryogenic Fluid Circulation Loops for Efficient Heat Transfer of Small Cooling Capacities in the 4-20 K Temperature Range
-
Tushar Garg
(The Ohio State University)
- Author in M2Po3D-03: Modeling and Analysis of Magnetization in ReBCO Coated Tape Conductor and Helical Wound Tape Conductors
- Author in M3Or3B-06: Flux Jumping in High Magnetic Fields for Stack Tape Cables and its Mitigation
- Co-author in M3Or2A-04: Investigating the impact of tensile stress-induced/annealing-affected dislocation and grain boundary on the performance of High Purity Aluminum Wire by EBSD.
- E. Garibaldi (University of Twente, Faculty of Science & Technology, Enschede, The Netherlands)
- Amari Garrett (National High Magnetic Field Laboratory, USA)
- Arjun Garva (Indian Institute of Technology Kharagpur, India)
- Noah Gavin (National High Magnetic Field Laboratory, USA)
- Zhen Geng (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Jordan Gery
- Rosembergue G. Gonçalves (CPqMAE - The Research Center on Advanced Materials and Energy, Federal University of São Carlos (UFSCar), São Carlos, 13565-905, Brazil.)
- Nadina Gheorghiu
-
Parthasarathi Ghosh
(IIT Kharagpur India)
- Co-author in C2Po3B-05: Numerical estimation of pressure drop of subcooled parahydrogen flow in the ESS Cryogenic Moderator System.
- Co-author in C3Or3B-08: Optimizing cryoprobe tip geometry for enhanced cryoablation efficacy: A numerical simulation approach
- Co-author in C3Po1C-06: Three-dimensional simulations for evolving thermodynamic scaling laws in cryogenic cavitating fluid transients
- Stefanos Giannis (National Physical Laboratory)
- Pascoal José Giglio Pagliuso (“Gleb Wataghin” Institute of Physics, UNICAMP, Campinas-SP, 13083-859, Brazil.)
- Yulia Gitter (Washington State University HYPER Lab)
- Valerio Giusti (University of Pisa / INFN Pisa)
- Lorenzo Giusti
- Wojciech Gizicki (Wroclaw University of Science and Technology)
- J. Gladin (Georgia Institute of Technology)
-
David Glaister
(Ball Aerospace)
- Author in C3Or4C-04: British (Ball) Aerospace Cryogenic Thermal Margins
- Co-author in C2Or2A-01: BAE Hybrid Cryocooler Solution for the ESA Athena Mission
- Co-author in C3Or4C-02: BAE Low Cost, High Capacity, Scalable Cryocooler Solutions
- Co-author in C3Or4C-06: BAE Modular Advanced Cryocooler Control Electronics (MACCE)
- Chirag Goel (Department of Mechanical Engineering, University of Houston, Houston, TX 77204,US, Texas Center for Superconductivity, University of Houston, Houston, TX 77004, USA, Advanced Manufacturing Institute, University of Houston, Houston, TX 77023, USA)
- Mojtaba Gohari Bahabadi (Monash University and CSIRO)
- L H Gong
- Elliot Goodman (Creare LLC)
- Wolfgang Goor (Bültmann GmbH)
- Carlita Gorham (BAE Systems)
- Florian Gouit (CEA Paris-Saclay)
- Michael Gower (National Physical Laboratory)
- Mukesh Goyal (BARC)
- Lukas Graber
- Maximilian Grabowski
- Markus Graf
- Austin Grake (Michigan State University)
- Deborah Greaves (University of Plymouth)
- Michael Green
- Laura Greene (Florida State University)
- David Greene (Michigan State University)
- Jessie Greenhalgh (Creare LLC)
- James Gregoire (Creare LLC)
- DAVID GRILLOT (ITER Organization)
-
Steffen Grohmann
- Author in C3Po1C-04: Completion of vapor-liquid equilibrium measurements of the helium-neon system at temperatures below 36 K
- Co-author in C2Po1F-06: Model development and optimization of cryogenic mixed-refrigerant cycles with phase separators
- Co-author in C3Po1F-01: Conceptual design of a lab-scale low-noise He-II liquefier using a pulse-tube cryocooler with a Joule-Thomson cycle
- Gregory Grose (Thomas Jefferson National Accelerator Facility)
- Ryan Grotenrath
-
Michael Gschwendtner
(Auckland University of Technology)
- Co-author in C1Or2B-01: A dynamic simulation model for gas guided pistons in Stirling machines
- Co-author in C2Po3D-02: Experimental results from the cryogenic cooling of a rotor using an internal pump
- Co-author in C3Or4C-08: Numerical investigation & optimisation of a small-scale travelling-wave thermoacoustic Stirling cryocooler
-
Nicolas Guillotin
(CERN)
- Co-author in C3Or4B-01: Operation of CERN’s major tests facility with upgraded cryogenic infrastructure for superconducting magnets, power links, inner triplets String and radio-frequency cavities for HL-LHC
- Co-author in C3Or4B-02: Upgrade of the CERN cryogenic test facility for the HL-LHC superconducting magnets and superconducting links
-
Michael Guinchard
(CERN)
- Author in M2Po3E-01: Thermal and Mechanical Characterization of REBCO HTS Tapes and Stacks for Magnet Design in the Muon Collider Study
- Co-author in M2Po3B-01: Development of a thermal conductivity test bench at cryogenic temperatures
- Co-author in M3Or4B-05: [Invited] Advancing Cryogenic Material Testing for High-Field Superconducting Magnets
- Madhav Gulati (Georgia Institute of Technology)
-
Upeka Gunarathne
(The University of Melbourne)
- Co-author in C1Or4C-06: Thermal and Structural Modification to Repurpose Existing Full Containment (FCT) Liquified Natural Gas (LNG) Tanks for Liquid Hydrogen (LH2) Storage
- Co-author in C1Po1A-11: Mega-Scale Liquid Hydrogen (LH2) Storage for Energy Storage & Transportation
- Co-author in C2Or2B-01: [Invited] Design and Development of a State-of-the-Art Cryogenic Testing Platform for Liquid Hydrogen Applications
-
Wei Guo
(Florida State University, National High Magnetic Field Laborato)
- Author in M2Or4A-03: [Invited] The “IZEA-light” zero-emission aviation conceptual design
- Co-author in C2Or4B-03: Particle Levitation Velocimetry for boundary layer measurements in high Reynolds number liquid helium turbulence
- Co-author in C2Or4B-04: Accelerator cavity quench spot detection using particle tracking velocimetry
-
Yang Guo
(The Ohio State University)
- Author in C1Po3A-07: Lumped Modeling of Cooling and Electric Devices in Aircraft
- Author in C3Po1C-05: Experimental study on inclined two-phase flow cooling of multi-stranded aluminum cable
- Author in M3Or2A-02: Developing practical Cryogenic high purity aluminum (HPAL) conductor to enable high speed power density motors and generators.
- Author in M3Or2A-04: Investigating the impact of tensile stress-induced/annealing-affected dislocation and grain boundary on the performance of High Purity Aluminum Wire by EBSD.
- Author in M3Or3A-05: [Invited] A high power two-pole quick connect junction between lightweight cryoresistive and superconducting aerospace power transmission cables
- Co-author in M3Or2A-05: Impact of anomalous magnetoresistance and cyclic deformation on RR values of HPAL composites at low temperatures
- Co-author in M3Or3A-03: [Invited] Lightweight cryoresistive and superconducting aerospace power transmission cables: experiments and theory
- Liang Guo (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, China)
- Haowen Guo (Technical Institute of Physics and Chemistry, Chines Academy of Sciences)
- Jia Guo
- Joffre Gutierrez Royo (ICMAB - CSIC)
- Seong Ho Ha (Hong Ik University)
-
Iris Haag
(European Spallation Source ERIC)
- Co-author in C2Po1A-05: Performance assessment of liquid hydrogen pump for the ESS cryogenic moderator system during initial commissioning using helium
- Co-author in C2Po3B-02: Verification and optimization of cooldown operation mode for the ESS cryogenic moderator system during preliminary commissioning using helium
- Co-author in C2Po3B-03: Results of fundamental operational function tests for the ESS cryogenic moderator system during preliminary commissioning with helium
- Co-author in C2Po3B-04: Thermal fluctuation mitigation in the ESS cryogenic moderator system induced by proton beam injection or trip: cooling power control in Preliminary commissioning
- Co-author in C3Or4B-03: Commissioning results of the ESS cryogenic moderator system using helium
- Co-author in C3Po1B-05: Performance test and optimization of the control system for the ESS cryogenic moderator system
-
Christoph Haberstroh
- Co-author in C1Or4C-03: On the Thermodynamic Boundaries of Cryogenic Liquid Storage in Closed Containers
- Co-author in C1Po1A-10: Hydrogen permeability of fiber-reinforced thermoplastics under cryogenic conditions
- Co-author in C2Or4C-02: Design and testing of a submersible laboratory-sized cryogenic liquid hydrogen pump
- Co-author in C2Po1A-01: Experimental Study on the Cavitation Characteristics of a Centrifugal Pump in Liquid Helium
- Co-author in C2Po1D-03: Screening of ortho-parahydrogen catalysts
- Co-author in C2Po3C-04: Small Scale Joule Thomson Hydrogen Liquefaction – A Comparison of Two Liquefaction Cycles
- Co-author in C3Or4A-04: New design data for ortho-parahydrogen converters
- Alan Hahn (Fermilab)
- Pawel Halczynski (Instytut Fizyki Jądrowej im. Henryka Niewodniczańskiego Polskiej Akademii Nauk, Kraków, Poland)
- Thomas Hallock (NASA Langley Research Center)
- Kazuya Hamada
- Shinji Hamaguchi
- Meng Han (Institute of Electrical Engineering, Chinese Academy of Sciences)
- Jaehak Han (Institute for Basic Science)
- JaeHak Han (Institute for Basic Science)
- Yemao Han (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Pierrick Hanlet
- Patrick Hanlon (NASA Glenn Research Center)
-
Benjamin Hansen
- Author in C2Po1C-05: Integration and commissioning experience of Full Flow Purifier at Muon Campus
- Author in C2Po1C-06: Helium recovery system at IB3a
- Co-author in C2Po3A-01: Heat load measurements for the PIP-II pHB650 cryomodule
- Co-author in C3Po1A-02: Operational experience of the NML cryogenic plant at the FAST facility
- Kiruba Haran (University of Illinois)
- Percy Harrell (Oak Ridge National Laboratory)
- Ajchariya Harrison (Astrion)
- Christopher Hartman (Analytical Mechanics Associates)
-
Jason Hartwig
- Author in C2Or4D-05: Cryogenic Two-Phase Flow Boiling Correlations for Terrestrial and Reduced Gravity
- Author in M3Or3B-03: Test Results for the Commissioning of NASA’s AC Loss Superconducting Coil Test Rig
- Co-author in C2Or4D-06: Electrospun Polyvinylidene fluoride co-hexafluoropropylene (PVDF-HFP) for Passive Thermal Management in Space
- Co-author in M1Po3B-04: Assessing the Adhesion of Nanofibrous PVDFHFP as Passive Thermal Control Coatings for the Extraterrestrial Storage of Cryogenic Propellants
- Co-author in M3Or3B-08: Superconducting Coil Pack Manufacturing and Risk Reduction Testing for NASA’s AC Loss Test Rig
- Co-author in M4Or1B-05: Investigating dual electrospinning as a means of enhancing passive thermal control coatings for cryogenic propellant storage in extraterrestrial environments
- Karl Hartwig
-
Nusair Hasan
(Michigan State University)
- Author in C2Or2C-01: Analysis of quench safety and cryogenic energy recovery for FRIB High Transmission Beam Line magnets
- Co-author in C1Or4B-06: Design, fabrication and installation of the refurbished K500 cyclotron cryogenic distribution system for MSU chip testing facility
- Co-author in C2Or4C-05: Development and validation of a 1D oil-injected screw compressor model for helium cryogenic system applications
- Co-author in C2Po1A-03: Design and development of a control valve plug for precise control and measurement of cryogenic flow
- Co-author in C3Or2B-01: Development and verification of a steady-state operating methodology for wide-range operation of 2K cold compressor system
- Co-author in C3Or2B-02: Development and verification of a transient operating methodology for pump-down operation of 2K cold compressor system
- Co-author in C3Or3A-05: Experimental investigation of moisture freeze-out in a cryogenic heat exchanger for helium purification
-
Timothy Haugan
- Author in M1Or2A-02: [Invited] Impacts of Liquified-Petroleum-Gas (LPG) and Liquid-H2 Cryogenic Fuels to improve the Performance and Thermal Management of Aerospace Vehicles
- Author in M3Or3A-05: [Invited] A high power two-pole quick connect junction between lightweight cryoresistive and superconducting aerospace power transmission cables
- Author in M3Or4A-02: [Invited] A Double Rotor Flux Switching Machine with HTS Field Coils for All Electric Aircraft Applications
- Co-author in C3Po1C-05: Experimental study on inclined two-phase flow cooling of multi-stranded aluminum cable
- Co-author in M1Po3A-03: The Effect of Calcium Doped Y-Ba-Cu-O (CaY123) Layer Thickness on the Flux Pinning in (CaY123 / BaZrO3 Doped Y-Ba-Cu-O) Multilayer Composite Films at a Wide Range of Temperatures and Applied Fields
- Co-author in M2Or4A-04: [Invited] Overview and Progress Update on a Superconducting Powertrain for CHEETA
- Co-author in M2Or4B-02: Role of Ca diffusion in BaZrO3 nanorods/YBa2Cu3O7-x multilayer nanocomposite films
- Co-author in M2Po3A-01: Ultrafast Optically Pulse Triggered Microwave/Terahertz Emission from an Array of Inductively Charged Superconducting Rings
- Co-author in M2Po3A-04: Higher order topology in hydrogenated graphite
- Co-author in M2Po3D-04: AC loss models of standard and non-standard arrangements of Y-Ba-Cu-O tapes in stacks
- Co-author in M3Or3A-03: [Invited] Lightweight cryoresistive and superconducting aerospace power transmission cables: experiments and theory
- Daniel Hauser (NASA Glenn Research Center)
- yijing he
- Jiangbiao He (University of Tennessee)
- Wolfgang Hees (European Spallation Source ESS AB)
- Eric Hellstrom
- Lionel Herblin (CERN)
- David Hervol (HX5)
- Alan Hewston (NASA Glenn Research Facility)
- Kohei Higashikawa
- Takehiro Himeno
- Takashi Hirayama (Sumitomo Heavy Industries,ltd)
- Yoshimitsu Hishinuma (National Institute for Fusion Science)
- Chistine Hoa (ITER organization)
- Joris Hochanadel (Los Alamos National Lab)
-
Stefan Hoell
(CERN)
- Author in M2Po3B-01: Development of a thermal conductivity test bench at cryogenic temperatures
- Author in M2Po3E-01: Thermal and Mechanical Characterization of REBCO HTS Tapes and Stacks for Magnet Design in the Muon Collider Study
- Co-author in M3Or4B-05: [Invited] Advancing Cryogenic Material Testing for High-Field Superconducting Magnets
- Jens Höhne (Pressure Wave Systems GmbH)
- Ed Holgate (Shell)
- Jeremiah Holzbauer (Fermi National Accelerator Laboratory)
- Yong-Ju Hong
- Guotong Hong (Technical Institute of Physics and Chemistry, CAS)
- Keigo Horiguchi (Aoyama Gakuin University)
-
Attila Zsigmond Horváth
(European Spallation Source)
- Author in C3Po1B-05: Performance test and optimization of the control system for the ESS cryogenic moderator system
- Author in C3Po1B-06: Development of the 17 kW orifice-type heater control system for thermal compensation induced by nuclear heating at the ESS hydrogen moderators
- Co-author in C1Po1A-06: Updated design of the ESS cryogenic moderator system
- Co-author in C2Po1A-05: Performance assessment of liquid hydrogen pump for the ESS cryogenic moderator system during initial commissioning using helium
- Co-author in C2Po1A-06: Basic design of a 17 kW orifice type heater for the ESS cryogenic moderator system
- Co-author in C2Po3B-02: Verification and optimization of cooldown operation mode for the ESS cryogenic moderator system during preliminary commissioning using helium
- Co-author in C2Po3B-03: Results of fundamental operational function tests for the ESS cryogenic moderator system during preliminary commissioning with helium
- Co-author in C2Po3B-04: Thermal fluctuation mitigation in the ESS cryogenic moderator system induced by proton beam injection or trip: cooling power control in Preliminary commissioning
- Co-author in C3Or4B-03: Commissioning results of the ESS cryogenic moderator system using helium
-
Jonathon Howard
(The Facility for Rare Isotope Beams)
- Author in C3Or2B-01: Development and verification of a steady-state operating methodology for wide-range operation of 2K cold compressor system
- Author in C3Or2B-02: Development and verification of a transient operating methodology for pump-down operation of 2K cold compressor system
- Co-author in C2Or2C-01: Analysis of quench safety and cryogenic energy recovery for FRIB High Transmission Beam Line magnets
- Co-author in C2Po1A-03: Design and development of a control valve plug for precise control and measurement of cryogenic flow
- Katrina Howard (University of Chicago)
- Matthew Howell
- Oleksandr HRYHORENKO (Thomas Jefferson National Accelerator Facility)
- Feng-Zone Hsiao (National Synchrotron Radiation Research Center)
- Hong Hu (PsiQuantum)
- Yingxuan Hu (Zhejiang University, Institute of Refrigeration and Cryogenics)
- Yihe Hua (GE HealthCare Technology and Innovation Center, Niskayuna, NY 12309, USA)
- Jialong Huang (Purdue University)
-
Rongjin Huang
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Author in M1Po3D-01: Cryogenic properties of polyimide aerogel composites for thermal insulation
- Co-author in C1Or4A-03: A compact, exchangeable and fast-cooling cryogenic system for HTS antennas
- Co-author in M2Po3B-03: Magnetoresistance analysis and calibration of zirconium oxynitride sensor for low-temperature thermometry
- Zichun Huang (Technical Institute of Physics and Chemistry)
- Jui-Che Huang (National Synchrotron Radiation Research Center)
- Gui-Wen Huang (中国科学院理化技术研究所)
- Shengli Huang (Lihan Cryogenics Co., Ltd., Shenzhen)
- Rongjin Huang
- Li Kai Huang (SIEMENS Shenzhen Magnetic Resonance Ltd.)
- Noah Hudson (West Coast Solutions)
- Florian Hug (Johannes Gutenberg-Universität Mainz)
-
Tom Hughes
(Monash University)
- Co-author in C2Po1D-01: Magnetic field acceleration of catalyzed para- to orthohydrogen conversion for cooling superconducting motors
- Co-author in C2Po1D-02: Improving the activation of ortho-para hydrogen conversion catalysts for hydrogen liquefaction: Effects of pre-treatment on the performance of Ionex OP
- Luke Humphreys
- Mathew Hunt
- Rob Hunter (3M)
- Gary Hunter (NASA Glenn Research Center)
- Joseph Hurd (Fermilab)
- Aftab Hussain (Oak Ridge National Laboratory)
- Aliya Hutley (National High Magnetic Field Laboratory, USA)
-
Chieloka Ibekwe
- Author in C2Or4D-06: Electrospun Polyvinylidene fluoride co-hexafluoropropylene (PVDF-HFP) for Passive Thermal Management in Space
- Author in M1Po3B-04: Assessing the Adhesion of Nanofibrous PVDFHFP as Passive Thermal Control Coatings for the Extraterrestrial Storage of Cryogenic Propellants
- Co-author in M4Or1B-05: Investigating dual electrospinning as a means of enhancing passive thermal control coatings for cryogenic propellant storage in extraterrestrial environments
- Robin Ihnfeldt
- Yasuo Iijima (National Institute for Materials Science)
- Boris Ilinets (SLAC National Accelerator Laboratory)
- Kazutaka Imamura (Kyushu University)
- Junya Imani (Meiko Futaba Co. Ltd)
- Sehwan In
-
Aniket Ingrole
(National High Magnetic Field Laboratory (NHMFL), Florida State University)
- Author in M1Or1A-01: Microstructure and 77K mechanical properties of electron beam welded Cu101- Inconel 625 joints
- Author in M1Po3B-03: Mechanical Properties of Stainless-Steel co-wind Tapes for REBCO magnets
- Author in M2Po3E-04: Friction Coefficient Measurements for High-Temperature Superconducting Magnet Design
- Co-author in M2Or2A-03: Low-Temperature Fatigue and Fracture Properties of Maraging C250 Steel
- Co-author in M2Po3C-04: Characterization of NbTi wires for the electron-ion collider project
- Co-author in M3Or4B-01: [Invited] Quality assurance testing of materials for the 40 T superconducting magnet project
- Dan Ionel (University of Kentucky)
- Masayoshi Ishida (University of Tsukuba)
- Yury Ivanyushenkov (ANL)
- Erik Iverson (Oak Ridge National Laboratory)
- Masataka Iwakuma
- Paul Iyanda (FAMU-FSU College of Engineering, Department of Electrical & Computer Engineering)
- Teruo Izumi
- Wyatt Jackson (West Coast Solutions)
- John Jacobson (CB&I)
- Shin Jaehee (I)
- Arriagada Jaime (European Spallation Source ERIC)
- Ian Jakupca (NASA Glenn Research Center)
- Hyojae Jang
- Jim Janney
- Jan Jaroszynski (National High Magnetic Field Laboratory FSU)
- Kay Jensch (Deutsches Elektronen-Synchrotron DESY)
-
Sangkwon Jeong
(Korean Advanced Institute of Science and Technology)
- Co-author in C1Or2C-04: Conceptual Design and Initial Operation of a Single-Shot Dilution Refrigerator with a Small Helium-3 Inventory
- Co-author in C1Po1C-04: Development of a 4 K pulse-tube refrigerator (PTR) for quantum device cooling
- Co-author in C2Po3D-02: Experimental results from the cryogenic cooling of a rotor using an internal pump
- Heechan Jeong (Korea Institute of Machinery and Materials)
- Justin Jessop (Washington State University)
-
David JESSUP
(Air Liquide)
- Co-author in C3Or3D-02: ITER LHe plants first tests results
- Rajveer Jha (The University of Texas at Austin)
- Wei Ji
-
Wei Ji
(Zhonglv Zhongke Energy Storage Technology Co., Ltd.)
- Author in C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- Author in C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- Author in C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- Author in C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- Author in C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- Co-author in C2Po3C-01: Thermodynamic and mechanical properties of solid-phase media for moving cryogenic energy storage packed beds
- Qiming Jia (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Jianyi Jiang (National High Magnetic Field Laboratory)
- Zhenan Jiang
- Di Jiang
- Zhiyi Jiang (Florida State University - NHMFL)
-
Minzheng Jiang
- Author in M2Or1A-04: FEM and Modelica Modelling of Current Sharing in Tape Stack Cables; Influence of ICR, ITR, Defect Number, Defect Patterns, and Thermal Boundary Conditions
- Author in M2Po3D-02: Modelica Modelling of HTS Dipole Magnet windings, and the influence of cable defects on Thermal and Electrical Sharing in the Cross Section
- Author in M3Or3A-05: [Invited] A high power two-pole quick connect junction between lightweight cryoresistive and superconducting aerospace power transmission cables
- Co-author in M3Or3A-03: [Invited] Lightweight cryoresistive and superconducting aerospace power transmission cables: experiments and theory
- Minzheng Jiang
- Lorenzo Luc Jimenez
- Tao Jin
- Huan Jin
- Hyun Chul Jo (Institute for Basic Science)
- Hyun Chul Jo (Institute for Basic Science / Rare Isotope Science Project)
- Warren Johnson (Jefferson Lab)
-
Wesley Johnson
(NASA Glenn Research Center)
- Author in C2Or2B-04: [Invited] The Development of a Liquid Hydrogen Test Capability for Aviation and Beyond as a US National Asset
- Author in C2Or4B-01: The Use of Temperature Sensors for Liquid Hydrogen Testing at NASA Glenn Research Center
- Author in C2Or4D-02: Efficiency of CryoFILL Liquefaction Tests
- Co-author in C4Or1B-01: [Invited] Fuel Cell-Based Hydrogen Aircraft Architecture
- Co-author in M1Or4A-01: [Invited] Thermal Conductivity of Polymer Aerogels at Different Vacuum Levels for Cryogenic Insulation Applications
- Keith Johnson
- Claire Jones (Jefferson Science Associates)
- Jakeyvan Jones (Applied Superconductivity Center - NHMFL)
- Shelly Jones (Michigan State University)
- Kevin Jordan
- Nathan Jorgensen (Washington State University)
- Nathan Joseph (Michigan State University Facility for Rare Isotope Beams)
- Bhumika Joshi (INOX India Limited)
- Thomas Just (Technische Universität Dresden)
- Rajat Kalla (INOX India Limited)
- Swarn Kalsi (Kalsi GPS)
- Martin Kaltschmitt (Institute of Environmental Technology and Energy Economics (IUE), Hamburg University of Technology (TUHH), Eissendorfer Strasse 40, Hamburg, 21073, Hamburg, Germany)
- Fumitake Kametani (Florida State University)
- Cody Kaminsky (Georgia Institute of Technology)
-
Koji Kamiya
(National Institute for Materials Science)
- Author in C1Po1A-01: Numerical simulation of active magnetic regenerative refrigeration for hydrogen liquefaction
- Co-author in C1Po1A-02: Active Magnetic Regenerative Refrigerator (AMR) with rotating permanent magnet for liquid hydrogen
- Co-author in C1Po1C-02: A new approach for low input and high capacity 4 K Gifford-McMahon cryocooler
- Co-author in C3Po1D-02: Performance improvement of a hydrogen condensation heat exchanger applying intermittent reciprocating flow
- Benjamin Kanz (Technical University of Munich, TUMCREATE)
- Hiren Kanzaria (INOX)
- Anna Urszula Kario (University of Twente)
- Myroslav Karpets (National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute)
- Matthew Kasa (Argonne National Laboratory)
- Hidetoshi Kasahara (Eagle Industry Co., Ltd.)
- Peter Kascak (NASA Glenn Research Center)
- Ali Kashani
- Richard Kaszeta (Creare LLC)
- Tpshiyuki Kato (Hydro Aluminium Japan KK)
- Jakub Kawałko
- Katsumi Kawano (National Institutes for Quantum Science and Technology)
- Takafumi Kayano (Meiko Futaba Co., Ltd)
-
Changlei Ke
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Author in C1Po3A-08: Dynamic Analysis and Optimization of Aerostatic Bearing-Rotor Systems in Cryogenic Turbo Expanders
- Co-author in C1Po3A-01: Optimization design of the brake impeller for cryogenic hydrogen turbine expanders
- Co-author in C1Po3B-03: Numerical Simulation of the Protective Effectiveness of Bund Walls and the Impact of Key Parameters in Accidental Liquid Hydrogen Releases
- Co-author in C1Po3D-01: Design and performance analysis: characteristics of multi-dimension helium turbine brake wheels based on CFX simulation
- Co-author in C2Po1A-04: Optimizing nozzle-impeller coupling to enhance efficiency in hydrogen Turbo-Expanders
-
Marcus Keenan
(SLAC)
- Co-author in C1Or2A-02: LCLS-II Cryoplant Operational Availability: 3 Years of Operation
- Co-author in C1Or2C-02: Quantum Computer Test Facility at SLAC using existing Cryogenic Infrastructure
- Co-author in C1Po1E-04: LCLS-II Cryoplant Cooling Water System: Challenges and Remediation
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
- Co-author in C3Or2B-05: Impact of Power Outage for Large scale cryogenic system operation
- Andrew Kelly (NASA)
- Amy Kennedy (Oxford Cryosystems Ltd)
- Matthew Kennedy (RTX Technologies Research Center)
- Steven Kenney (Oak Ridge National Laboratory)
- Sean Kenny
- Robert Kenny
- Raymond Kersey (Advanced Fracture Mechanics Associates LLC)
- Ibrahim Kesgin
- Aiswarya Kethamkuzhi
- Simon Keys (Tesla Engineering)
- Bashu Khanal
-
Taekyung Ki
(SLAC National Lab)
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
- Jakub Kielar
- Akihiro Kikuchi
- Seojeong Kim
- Youngjae Kim (National High Magnetic Field Laboratory)
- Jangdon Kim (Changwon National University, Changwon, South Korea)
- Hyung Jin Kim (GenH2)
- Juwon Kim (Korea Institute of Machinery and Materials)
- Hyobong Kim (Korea Institute of Machinery and Materials)
- Youngkwon Kim (Institute for Basic Science)
- Myungbae Kim (Korea Institute of Machinery and Materials)
- Taehoon Kim (Korea Institute of Machinery and Materials)
-
Seokho Kim
- Co-author in C1Po1C-04: Development of a 4 K pulse-tube refrigerator (PTR) for quantum device cooling
- Co-author in C3Po1E-02: Design of a Three-Stage Continuous Adiabatic Demagnetization Refrigerator for Ultra-Low Temperature Applications
- Co-author in C3Po1E-03: Design and fabrication of CPA salt pill for adiabatic demagnetization refrigerator
- Sunjae Kim (Purdue)
- Jinwook Kim (Institute for Basic Science)
-
Chul Kim
(Florida State University)
- Author in C2Or4C-06: Modeling and Analysis of Graded Heat Exchangers for Cryogenic Power System of Electric Aircraft Using the AeroCryoX
- Author in M2Or4A-03: [Invited] The “IZEA-light” zero-emission aviation conceptual design
- Author in M4Or1A-03: [Invited] AeroCryoX: A Comprehensive Library of Cryogenic Power System Component Models for Designing Electric Aircraft
- Co-author in C3Or3A-02: Testbed for high current and high voltage characterization of gaseous helium cooled HTS power cables for electric transport systems
- Co-author in C3Or4A-03: Transient system-level cryogenic thermal management models of liquid hydrogen-fueled electric aircraft
- Co-author in M3Or3A-01: [Invited] Cryogenic Thermal Management of Power Conversion Devices on Liquid Hydrogen Fueled Electric Aircraft
- Co-author in M4Or1A-04: [Invited] Liquid Hydrogen for Sustainable Energy Systems: Latest Development, Challenges and Opportunities
- SeoJeong Kim (Institute for Basic Science)
- Yongsu Kim (BAE Systems Inc.)
- Junseong Kim (Michigan State University)
- Andrew Kim (Georgia Institute of Technology)
- JinWook Kim (Institute for Basic Science)
- Motoyuki Kimata (Toyota Motor Corporation)
- Markus Kind (Rolf Kind GmbH)
- Carl Kirkconnell (West Coast Solutions)
- David Kishi (TRIUMF)
- Takanobu Kiss
- Harald Klein (Technical University of Munich, TUM School of Engineering and Design, Department of Energy and Process Engineering, Institute of Plant and Process Technology, Garching/Germany)
- Siri Kleivane
- Robert Kluge (Leibniz-Institut für Festkörper- und Werkstoffforschung Dresden e. V.)
- Adriana Klyszejko (Oxford Cryosystems Ltd)
- Junseok Ko (Korea Institute of Machinery and Materials)
- Hiroaki Kobayashi (Japan Aerospace Exploration)
- Joseph Koch (Sumitomo (SHI) Cryogenics of America Inc)
- David Koci (NASA Glenn Research Center)
- Yutaro Koike (Sumitomo Heavy Industries, Ltd. - Technology Research Center)
- Philipp Kolb (TRIUMF)
- robert kolozs
- Jun Kondo (Technology Research Center, Sumitomo Heavy Industries, Ltd.)
- Xhesika Koroveshi (Karlsruhe Institute of Technology (KIT))
- Ryan Koschay (Michigan State University)
- Sergey Koshelev (Fermilab)
- Logan Kossel (National Institute of Standards and Technology)
- Vincent Kotsubo (National Institute of Standards and Technology)
- Grigory Kouzmenko (F4E)
-
Chris Kovacs
(Scintillating Solutions LLC)
- Author in M1Or2A-02: [Invited] Impacts of Liquified-Petroleum-Gas (LPG) and Liquid-H2 Cryogenic Fuels to improve the Performance and Thermal Management of Aerospace Vehicles
- Author in M3Or3A-03: [Invited] Lightweight cryoresistive and superconducting aerospace power transmission cables: experiments and theory
- Author in M3Or3A-05: [Invited] A high power two-pole quick connect junction between lightweight cryoresistive and superconducting aerospace power transmission cables
- Author in M3Or4A-02: [Invited] A Double Rotor Flux Switching Machine with HTS Field Coils for All Electric Aircraft Applications
- Co-author in C3Po1C-05: Experimental study on inclined two-phase flow cooling of multi-stranded aluminum cable
- Co-author in M2Or4A-04: [Invited] Overview and Progress Update on a Superconducting Powertrain for CHEETA
- Co-author in M3Or2A-04: Investigating the impact of tensile stress-induced/annealing-affected dislocation and grain boundary on the performance of High Purity Aluminum Wire by EBSD.
- Chris Kovacs (Air Force Research Laboratory)
- Chris Kovacs (Hyper Tech Research Inc.)
- Alexey Koveshnikov
- Zbigniew Kowalewski (Institute of Fundamental Technological Research PAS)
- Joel Krakower (NASA Glenn Research Center)
- Stefan Kreuzer (Bültmann GmbH)
- Alexander Krimchansky (NASA)
- Dave Kristof (BAE Systems Inc.)
-
Shanaka Kristombu Baduge
(The University of Melbourne)
- Author in C1Or4C-06: Thermal and Structural Modification to Repurpose Existing Full Containment (FCT) Liquified Natural Gas (LNG) Tanks for Liquid Hydrogen (LH2) Storage
- Author in C1Po1A-11: Mega-Scale Liquid Hydrogen (LH2) Storage for Energy Storage & Transportation
- Author in C2Or2B-01: [Invited] Design and Development of a State-of-the-Art Cryogenic Testing Platform for Liquid Hydrogen Applications
- Co-author in M1Po3D-03: Assessing the Feasibility of Adopting Molecular Dynamics in Designing Cryogenic Polymers
- Duncan Kroll (The Facility for Rare Isotope Beams)
- Parag Kshirsagar (Raytheon Technologies Research Center)
- Minseung Ku (Korea Advanced Institute of Science and Technology)
- Mark Kubiak
- Andrej Kudymow (Karlsruhe Institute of Technology)
- Hunter Kuehnel (Amentum)
- Andreas Kulovits
- Andreas Kulovits (Commonwealth Fusion Systems)
- Benson Kunhung Tsai (Purdue University)
- Jozef Kvitkovic (Applied Superconductivity Center - NHMFL)
-
Jin Kwon
- Author in C1Po3A-07: Lumped Modeling of Cooling and Electric Devices in Aircraft
- Author in M3Or2A-02: Developing practical Cryogenic high purity aluminum (HPAL) conductor to enable high speed power density motors and generators.
- Author in M3Or2A-05: Impact of anomalous magnetoresistance and cyclic deformation on RR values of HPAL composites at low temperatures
- Author in M3Or3A-05: [Invited] A high power two-pole quick connect junction between lightweight cryoresistive and superconducting aerospace power transmission cables
- Author in M3Or3B-05: Tradeoffs Curves and Penalty Functions for AC losses and Je relevant to high-power-density motor applications and their use in comparing various superconductors and normal metal conductors
- Author in M3Or4A-04: [Invited] The thermal management of superconducting and aluminum conductors in motors, generators and cables for electric aircraft
- Co-author in C3Po1C-05: Experimental study on inclined two-phase flow cooling of multi-stranded aluminum cable
- Co-author in M3Or2A-04: Investigating the impact of tensile stress-induced/annealing-affected dislocation and grain boundary on the performance of High Purity Aluminum Wire by EBSD.
- Co-author in M3Or3A-03: [Invited] Lightweight cryoresistive and superconducting aerospace power transmission cables: experiments and theory
- Dohoon Kwon
- Devon Lang
- Nathan Lannoy (ATI Specialty Alloys & Components)
- David Larbalestier
- Brandon Laumer (Michigan State University)
- Damian Lauria (1National Institute of Standards and Technology, Colorado USA)
- Thomas Lavelle (NASA Glenn Research Center)
-
Nate Laverdure
(Thomas Jefferson National Laboratory)
- Author in C1Or4B-07: 2 Kelvin helium distribution system for the Electron Ion Collider’s 10 o’clock satellite refrigerator
- Co-author in C1Po1E-02: Assessment of the existing cryogenic central plant for the Electron Ion Collider cryogenic loads at Brookhaven National Laboratory
- Co-author in C2Or4A-01: Design of satellite cryogenic plants for the Electron-Ion Collider at Brookhaven National Lab
- Robert Laxdal
-
Jacob Leachman
- Author in C1Po3B-04: Development of the Cool Fuel School: a comprehensive hands-on cryogenic hydrogen design and safety program
- Author in C2Or2B-03: [Invited] A vertically integrated cryogenic hydrogen testing laboratory
- Co-author in C1Or4A-02: Development of a test apparatus for thermal conductivity measurements of insulation materials with adsorbed nitrogen between 20 and 77 K
- Co-author in C1Or4A-05: Lumped-element modeling of density wave oscillations in two-phase hydrogen flow
- Co-author in C1Or4C-02: Comparison of liquid hydrogen tank performance at different storage pressures and operational scenarios using a reduced-order model
- Co-author in C2Or4B-07: The design of a flow boiling visualization experiment for liquid hydrogen
- Co-author in C2Or4C-01: Development of a two-phase, variable nozzle jet-pump for pressure control in liquid hydrogen systems
- Co-author in C2Po1D-01: Magnetic field acceleration of catalyzed para- to orthohydrogen conversion for cooling superconducting motors
- Co-author in C2Po3D-03: A deployable barrier preventing liquid oxygen accumulation and safety risks during liquid hydrogen transfers
- Co-author in C2Po3D-04: Catalytic materials for ortho-parahydrogen conversion in a thermoacoustic cryocooler regenerator
- Co-author in C3Or3B-04: Development of hydrogen-filled traveling-wave thermoacoustic engine for powering pulse-tube and traveling-wave refrigerators
- Co-author in C3Po1B-02: Design of a test facility for evaluating liquid hydrogen fuel level probes
- Thibault LECREVISSE (CEA-Université Paris-Saclay (FR))
- Changhyung Lee (Changwon National University, Changwon, South Korea)
- Seungkyun Lee (GE HealthCare Technology and Innovation Center, Niskayuna, NY 12309, USA)
-
Peter Lee
(Florida State University)
- Co-author in M2Po3C-01: Investigating the microstructure of cold-worked and annealed SRF Niobium using Shannon Entropy
- Co-author in M2Po3C-02: Enhancing Flux Expulsion Through Microstructural Control in Superconducting Radiofrequency Cavities Made from Cold-Worked Niobium
- Co-author in M2Po3C-03: Impact of retained cold work on the microstructure and fabrication of SRF Nb cavities
- Yeaw Chu Lee (University of Plymouth)
- Changhyung Lee
- Gyuho Lee (Institute for Basic Science)
- Min Ki Lee (Institute for Basic Science)
- GyuHo Lee (Institute for Basic Science)
-
MinKi Lee
- Author in C2Po1B-02: The SCL3 linac operation and improvements following RAON's 2nd beam commissioning
- Co-author in C1Or2A-01: Maintenance of SCL3 cryogenic helium plant for Korean heavy ion accelerator after 3 years operation
- Co-author in C2Po1B-05: Operational experience of QWR cyromodules for RAON
- Andrew John Lees (CERN)
- J. Leferink (Foundation SuperACT, Hengelo, The Netherlands)
- Jérome LEGRAND (Air Liquide Advanced Technologies)
- Nathan Lehman (Air Force Institute of Technology)
- Yilin Lei (Department of Mechanical Engineering, Michigan State University)
- Adele Leon (Univ. Grenoble Alpes, CEA, IRIG-DSBT, 38000 Grenoble, France)
- Jeremy Levitan (National High Magnetic Field Laboratory, USA)
- Jacob Lewis (Old Dominion University)
- Hsing-Chieh Li
- Jianguo Li (Technical Institute of Physics and Chemistry)
-
Yihong Li
(Technical Institute of Physics and Chemistry, CAS)
- Author in C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- Author in C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- Author in C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- Author in C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- Author in C2Po3D-09: A Liquid Air Energy Storage (LAES) System Utilizing Upgraded LNG Cold Energy for Air Liquefaction
- Author in C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- Co-author in C2Po3C-01: Thermodynamic and mechanical properties of solid-phase media for moving cryogenic energy storage packed beds
-
Junxian Li
(Key Laboratory of Cryogenic Science and Technology, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Author in C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- Author in C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- Author in C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- Author in C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- Author in C2Po3D-09: A Liquid Air Energy Storage (LAES) System Utilizing Upgraded LNG Cold Energy for Air Liquefaction
- Author in C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- Co-author in C2Po3C-01: Thermodynamic and mechanical properties of solid-phase media for moving cryogenic energy storage packed beds
-
Yanen Li
(Technical Institute of Physics and Chemistry, CAS)
- Co-author in C1Po1B-02: 1 W@28.2 K micro single-stage coaxial pulse tube cryocooler operating at 52 Hz using precooling
- Co-author in C1Po1B-07: Investigation on a thermal-coupled two-stage pulse tube cryocooler with multi-bypass working at 8 K
- Co-author in C1Po1B-08: Theoretical and experimental investigation of the effect of the phase shifter on the compressor of pulse tube cryocoolers
- Geyang Li (Technical Institute of Physics and Chemistry CAS)
- Ziwei Li
- Si-Zhe Li
- Haibing Li (Lihan Cryogenics Co., Ltd., Shenzhen)
- Richard Li (The Ohio State University)
- Jian Li
- ruixing li (Technical Institute of Physics and Chemistry)
- Ke Li (Chinese Academy of Sciences)
- Dingfu Li (Zhejiang Juhua Equipment Engineering Group Co., Ltd.)
- Laifeng Li (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
-
Xinran Li
- Author in C1Po3D-08: A review of the technology practice and future opportunities of liquid hydrogen centrifugal pumps
- Author in C1Po3D-09: Design and optimization of a Single-Phase heat exchanger for GM cryocooler coupled with parahydrogen conversion catalyst
- Co-author in C1Po1A-07: Design of a Laboratory-Scale Hydrogen Liquefier Cold Box for Low-Altitude Economy and Modular Deployment
-
Yanan Li
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Author in C4Or1A-04: Design and performance testing of the 3-stage ADR
- Co-author in C2Po1A-02: Research on Optimization Strategies for Heat Switches Based on Helium Adsorption Models
- Co-author in C2Po1A-04: Optimizing nozzle-impeller coupling to enhance efficiency in hydrogen Turbo-Expanders
- Co-author in C4Or1A-03: Research on temperature control of Adiabatic Demagnetization Refrigerators
- Shaopeng Li (IHEP.CAS.CHINA)
- Kongrong Li (Technical Institute of Physics and Chemistry,CAS)
- ZhengYu Li (Technical Institute of Physics and Chemistry,CAS)
- H. Li (FAMU-FSU College of Engineering)
-
Yicheng Li
(Technical Institute of Physics and Chemistry CAS)
- Author in C1Po1A-07: Design of a Laboratory-Scale Hydrogen Liquefier Cold Box for Low-Altitude Economy and Modular Deployment
- Author in C1Po3D-09: Design and optimization of a Single-Phase heat exchanger for GM cryocooler coupled with parahydrogen conversion catalyst
- Co-author in C1Po3D-08: A review of the technology practice and future opportunities of liquid hydrogen centrifugal pumps
- Bixi Li (Technical Institute of Physics and Chemistry)
- Zhengkun Li (Key Laboratory of Cryogenic Science and Technology, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Yanwei Liang (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
-
Jingtao Liang
(Technical Institute of Physics and Chemistry, CAS)
- Author in C1Po1B-10: Research on the Influence of Average Pressure on the Thermodynamic Cycle and Performance of Pulse Tube Cryocoolers
- Author in C3Po1F-03: Performance optimization of a 4K hybrid JT cooler for space application
- Co-author in C1Po1B-05: Numerical and experimental investigation of the compressor coupling characteristic of a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1D-02: Design and experiments of 1 K superfluid 4He system for precooling the ultra-low temperature refrigerators
- Co-author in C1Po1D-03: Simulation and experimental study of ultra-low temperature heat transfer characteristics of continuous heat exchangers in the dilution refrigerator
- Co-author in C3Po1E-04: Design and testing of a tin superconducting heat switch for adiabatic demagnetization refrigerators
- Co-author in C3Po1F-02: A 100 mW@4.0 K hybrid 4He Joule-Thomson cryocooler for space applications
- Yanwei Liang (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Yanwei Liang
- WUN-RONG LIAO (NSRRC)
- Anna Libiez (LeTourneau University)
- Ralph Lietzow (Karlsruhe Institute of Technology KIT)
- Li-Anne Liew (1National Institute of Standards and Technology, Colorado USA)
- Hyungsoo Lim (Korea Institute of Machinery and Materials)
- Caitlynn Linville (Applied Superconductivity Center - NHMFL)
- Alexandr Litvinovich
-
Hongmin Liu
(Technical Institute of Physics and Chemistry)
- Author in C1Po3A-08: Dynamic Analysis and Optimization of Aerostatic Bearing-Rotor Systems in Cryogenic Turbo Expanders
- Author in C2Po1A-04: Optimizing nozzle-impeller coupling to enhance efficiency in hydrogen Turbo-Expanders
- Co-author in C1Po3B-03: Numerical Simulation of the Protective Effectiveness of Bund Walls and the Impact of Key Parameters in Accidental Liquid Hydrogen Releases
-
Liqiang Liu
(Technical Institute of Physics and Chemistry)
- Author in C1Po3A-08: Dynamic Analysis and Optimization of Aerostatic Bearing-Rotor Systems in Cryogenic Turbo Expanders
- Co-author in C1Po3B-03: Numerical Simulation of the Protective Effectiveness of Bund Walls and the Impact of Key Parameters in Accidental Liquid Hydrogen Releases
- Co-author in C2Po1A-04: Optimizing nozzle-impeller coupling to enhance efficiency in hydrogen Turbo-Expanders
-
yanjie Liu
- Author in C3Po1F-03: Performance optimization of a 4K hybrid JT cooler for space application
- Co-author in C1Po1B-04: A high frequency lightweight coaxial pulse tube cryocooler operating at 70 K
- Co-author in C1Po1B-05: Numerical and experimental investigation of the compressor coupling characteristic of a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C3Po1F-02: A 100 mW@4.0 K hybrid 4He Joule-Thomson cryocooler for space applications
- Hongmin Liu (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Liqiang Liu (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Hongmin Liu (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
-
Chenglong Liu
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China)
- Author in C1Po1B-02: 1 W@28.2 K micro single-stage coaxial pulse tube cryocooler operating at 52 Hz using precooling
- Author in C1Po1B-03: Influence of the structure of multi-bypass configuration regenerator on the performance of Pulse Tube Cryocooler
- Co-author in C1Po1B-04: A high frequency lightweight coaxial pulse tube cryocooler operating at 70 K
- Co-author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1B-07: Investigation on a thermal-coupled two-stage pulse tube cryocooler with multi-bypass working at 8 K
- Co-author in C1Po1B-08: Theoretical and experimental investigation of the effect of the phase shifter on the compressor of pulse tube cryocoolers
- Co-author in C1Po1D-01: Research on an efficient Joule-Thomson throttling refrigeration system based on cold compression cycle
-
Ziyao Liu
(Technical Institute of Physics and Chemistry, CAS)
- Author in C1Po1D-02: Design and experiments of 1 K superfluid 4He system for precooling the ultra-low temperature refrigerators
- Author in C3Po1F-02: A 100 mW@4.0 K hybrid 4He Joule-Thomson cryocooler for space applications
- Author in C3Po1F-03: Performance optimization of a 4K hybrid JT cooler for space application
- Co-author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Huiming Liu
- Liqiang Liu (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Harindu Lochana (The University of Melbourne)
- Zhiqiang Long (Siemens Heathinners)
- Harlan Lovera (Brookhaven national laboratory)
-
Jun Lu
- Author in M1Or1A-01: Microstructure and 77K mechanical properties of electron beam welded Cu101- Inconel 625 joints
- Author in M1Po3B-03: Mechanical Properties of Stainless-Steel co-wind Tapes for REBCO magnets
- Author in M2Po3C-04: Characterization of NbTi wires for the electron-ion collider project
- Author in M2Po3E-04: Friction Coefficient Measurements for High-Temperature Superconducting Magnet Design
- Co-author in M2Or2A-03: Low-Temperature Fatigue and Fracture Properties of Maraging C250 Steel
-
Xinyu Lu
(Zhejiang University, CN)
- Author in C3Po1C-07: Study on the flow nucleate boiling heat transfer of slush nitrogen
- Author in C3Po1D-06: Dynamic Characteristics of Transfer Processes in Port-Based Liquid Hydrogen Receiving Terminals
- Co-author in C1Po3C-06: Experimental investigation of CO2 desublimation characteristics in flue gas on horizontal copper plate influenced by surface temperature and CO2 concentration
- Co-author in C3Po1D-05: Fundamental insights into liquid hydrogen flow boiling: bubble dynamics and flow characteristic parameters
-
Xiao Fei Lu
- Co-author in C2Po1E-08: Design and Development of EPICS-based 6kW Helium Cryogenic Control System
- Co-author in C2Po1F-01: Dynamic simulation and automatic control strategy design for the compressor system of 6kW Helium refrigerator
- Co-author in C2Po1F-02: Modeling and Dynamic Simulation for the Cold Box of 6kW Helium Refrigerator
- Jun Lu (National High Magnetic Field Laboratory, USA)
- R. Lubkemann (Foundation SuperAct, Hengelo, The Netherlands)
- Ruben Lubkemann (Foundation SuperACT, Hengelo, The Netherlands)
-
Grant Lumsden
- Author in M3Or3A-02: [Invited] Liquid hydrogen cooling of superconducting motor AC windings
- Co-author in C2Po3D-02: Experimental results from the cryogenic cooling of a rotor using an internal pump
- Co-author in C3Or4C-08: Numerical investigation & optimisation of a small-scale travelling-wave thermoacoustic Stirling cryocooler
- Ercang Luo (Technical Institute of Physics and Chemistry, CAS)
- Ziying Luo
- Christopher Luth (The University of Texas at Austin)
-
Cui Lv
- Co-author in C1Po1A-07: Design of a Laboratory-Scale Hydrogen Liquefier Cold Box for Low-Altitude Economy and Modular Deployment
- Co-author in C1Po3D-08: A review of the technology practice and future opportunities of liquid hydrogen centrifugal pumps
- Co-author in C1Po3D-09: Design and optimization of a Single-Phase heat exchanger for GM cryocooler coupled with parahydrogen conversion catalyst
- Co-author in C3Po1D-01: Simulation and experiment of a hydrogen pump with an integrated closed impeller
- Vadim Lvovich (NASA Glenn Research Center)
-
Yuexue Ma
(Technical Institute of Physics and Chemistry, CAS)
- Author in C3Po1F-03: Performance optimization of a 4K hybrid JT cooler for space application
- Co-author in C1Po1B-05: Numerical and experimental investigation of the compressor coupling characteristic of a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C3Po1F-02: A 100 mW@4.0 K hybrid 4He Joule-Thomson cryocooler for space applications
- Hangyu Ma (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Yanwei Ma
- Philipp Maasch
- Ana Amelia Machado (UNICAMP)
- Matt Maciazka (Fermi National Accelerator Lab. (US))
- Ryuji Maekawa (Oak Ridge National Laboratory)
- Jacob Magnin (Thomas Jefferson National Accelerator Facility)
- MD Shakil Mahmood (Washington State University)
- Charles Mailleret (CEA Paris-Saclay)
- Goran Majkic (Department of Mechanical Engineering, University of Houston, Houston, TX 77204,US, Texas Center for Superconductivity, University of Houston, Houston, TX 77004, USA, Advanced Manufacturing Institute, University of Houston, Houston, TX 77023, USA)
- Antoine Majorel (Ecole Nationale Superieure des Mines de Paris (FR))
-
Milan Majoros
- Author in M1Po3C-03: Thermal Modeling of CCT Dipole Magnets wound using Defected REBCO Cables
- Author in M2Po3E-02: Contact resistance effect on current sharing in defected superconducting REBCO tape stack cables: FEM modeling
- Co-author in M2Or1A-04: FEM and Modelica Modelling of Current Sharing in Tape Stack Cables; Influence of ICR, ITR, Defect Number, Defect Patterns, and Thermal Boundary Conditions
- Co-author in M2Po3D-03: Modeling and Analysis of Magnetization in ReBCO Coated Tape Conductor and Helical Wound Tape Conductors
- Co-author in M3Or1A-03: Simulations of a modified CLIQ System using Split MgB2 Coils and Simultaneous Joule Heating Using a Lumped Parameter Model
- Co-author in M3Or3B-06: Flux Jumping in High Magnetic Fields for Stack Tape Cables and its Mitigation
-
Jerry Makara
(Fermilab)
- Author in C2Po1C-05: Integration and commissioning experience of Full Flow Purifier at Muon Campus
- Co-author in C2Po1E-07: Real time heat load calculation software based on EPICS for Fermilab PIP-II CM tests
- Co-author in C2Po3A-01: Heat load measurements for the PIP-II pHB650 cryomodule
- Co-author in C3Po1A-02: Operational experience of the NML cryogenic plant at the FAST facility
- Teshigawara Makoto (JAEA)
- Sadeq Malakooti (NASA Glenn Research Center)
- Ziemowit Malecha
- Kristin Malenfant
- Kevin Mallin (TERRA GEOSERV LIMITED)
- Marius Malthaner
- Franco Julio Mangiarotti (CERN)
- Giovanni Mangiulli (Politecnico di Torino)
- D. Mansfield (Sunpower)
- Adele Manzella (Istituto di Geoscienze e Georisorse, CNR)
- Christophe Marin (Univ. Grenoble Alpes, CEA, IRIG-Pheliqs, 38000 Grenoble, France)
- Mark mark.ainslie@kcl.ac.uk (mark.ainslie@kcl.ac.uk)
- Luca Davide Marocco (Politecnico di Milano)
- Michael Marotta (Advanced Fracture Mechanics Associates LLC)
- William Marshall (National High Magnetic Field Laboratory)
- Emma Martin (Applied Superconductivity Center - NHMFL)
- Spencer Martin (Florida State University)
- Florian Martin (Air Liquide Advanced technologies)
- Spencer Martin (Florida State University)
- Sylvain Martin (Univ. Grenoble Alpes, CEA, IRIG-DSBT, 38000 Grenoble, France)
-
Martina Martinello
(SLAC National Lab)
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
-
Alexander Martinez
- Co-author in C2Or4B-06: Fermilab PIP-II CDS & CM Cryogenic Controls System
- Co-author in C2Po1B-03: Design of the Tunnel Transfer line of PIP-II Cryogenic Distribution System
- Co-author in C2Po1B-04: PIP-II Cryogenic Distribution System – status and outlook
- Co-author in C3Po1A-02: Operational experience of the NML cryogenic plant at the FAST facility
- Len Masi (Brookhaven National Laboratory)
- Elisabete M. Assaf (São Carlos Institute of Chemistry at the University of São Paulo, 13566-590, São Carlos, SP, Brazil.)
- Brian Mastracci (Jefferson Lab)
- Shinji Masuyama
- Clara Mata (3M)
- Benjamin Jon Matheson
- Segerup Mats (European Spallation Source ERIC)
- Koichi Matsumoto (Kanazawa University)
-
Konstantin Matveev
(Washington State University)
- Co-author in C1Or4A-02: Development of a test apparatus for thermal conductivity measurements of insulation materials with adsorbed nitrogen between 20 and 77 K
- Co-author in C1Or4A-05: Lumped-element modeling of density wave oscillations in two-phase hydrogen flow
- Co-author in C1Or4C-02: Comparison of liquid hydrogen tank performance at different storage pressures and operational scenarios using a reduced-order model
- Co-author in C2Or4C-01: Development of a two-phase, variable nozzle jet-pump for pressure control in liquid hydrogen systems
- Co-author in C2Po3D-04: Catalytic materials for ortho-parahydrogen conversion in a thermoacoustic cryocooler regenerator
- Co-author in C3Or3B-04: Development of hydrogen-filled traveling-wave thermoacoustic engine for powering pulse-tube and traveling-wave refrigerators
-
Remi Mauny
(CERN)
- Author in C3Or4B-01: Operation of CERN’s major tests facility with upgraded cryogenic infrastructure for superconducting magnets, power links, inner triplets String and radio-frequency cavities for HL-LHC
- Co-author in C3Or4B-02: Upgrade of the CERN cryogenic test facility for the HL-LHC superconducting magnets and superconducting links
- Michael Maurisak (Ability Engineering Technology)
- David Mayerich (Department of Electrical and Computer Engineering, University of Houston, Houston, TX 77204,USA)
- Alex Mazhari (NASA Ames Research Center)
- Mike McCaughan (Jefferson Science Associates)
- Hudson McGuire (LeTourneau University)
- Umberto Melaccio (ASG Superconductors)
- Pengtong Meng (Zhongshan Institute of Advanced Cryogenic Technology)
- Liang MengLin
- Paul Mensah
- Mike Meyer
-
Zhicong Miao
- Author in M1Po3D-01: Cryogenic properties of polyimide aerogel composites for thermal insulation
- Author in M1Po3D-02: Formation of thermal conductive hydrogel network in boron nitride/polyvinyl alcohol by directional freezing assisted salting-out method for cryogenic application
- Co-author in M2Po3B-03: Magnetoresistance analysis and calibration of zirconium oxynitride sensor for low-temperature thermometry
- Robert Michling (ITER Organization)
- Rob Michnoff (Brookhaven National Lab)
- Frederic Micolon
- Arpit Mishra (Indian Institute of Technology Kharagpur, India)
- Wieslawa Misiewicz1
- Adish Mittal (Georgia Institute of Technology)
- Hiroshi Miyazaki (Kyushu University)
- Cameron Mock (BAE Systems Inc.)
-
Franscisco Moguel
(SLAC)
- Co-author in C1Or2A-02: LCLS-II Cryoplant Operational Availability: 3 Years of Operation
- Co-author in C1Or2C-02: Quantum Computer Test Facility at SLAC using existing Cryogenic Infrastructure
- Co-author in C1Po1E-04: LCLS-II Cryoplant Cooling Water System: Challenges and Remediation
- Co-author in C3Or2B-05: Impact of Power Outage for Large scale cryogenic system operation
- Satyajit Mojumder (Washington State University)
-
David Montanari
(Fermi National Accelerator Lab. (US))
- Author in C1Or4B-02: Overview and status of the Long-Baseline Neutrino Facility Far Detectors cryogenics system
- Co-author in C1Or4B-01: LBNF/DUNE Liquid Argon Roadmap
- Co-author in C1Po3C-02: Ensuring High-Purity Liquid Argon for the LBNF FDC: Collaborative Cryogenics Research Between UNICAMP and Fermilab
- Bradley Moore
- Andrew Moore (LeTourneau University)
- Michael Morgan (Ability Engineering Technology)
- Takaaki Morie (Sumitomo Heavy Industries, Ltd)
- Matt Mortensen (3M)
- Raphael Moser (Celeroton AG)
- Viktor Moshchil (V. Bakul Institute for Superhard Materials of the National Academy of Sciences of Ukraine)
- Takanori Motoki
- Robert Mrowca (Fermi National Accelerator Laboratory, PO Box 500, Batavia IL 60510, United States)
- Issam Mudawar (Purdue)
- Jeroen Mullie (Thales Cryogenics)
- Haruyuki Murakami
- John P. Murphy (UDRI)
- adriano mussinatto
- Nicola Mutinelli (R.E.D. SRL)
- Hisashi Nakagawa (NMIJ, AIST)
- Miyuki Nakamura (Faraday Factory Japan)
-
Shankar Narayan
(Rensselaer Polytechnic Institute)
- Co-author in C2Or4D-06: Electrospun Polyvinylidene fluoride co-hexafluoropropylene (PVDF-HFP) for Passive Thermal Management in Space
- Co-author in M1Po3B-04: Assessing the Adhesion of Nanofibrous PVDFHFP as Passive Thermal Control Coatings for the Extraterrestrial Storage of Cryogenic Propellants
- Co-author in M4Or1B-05: Investigating dual electrospinning as a means of enhancing passive thermal control coatings for cryogenic propellant storage in extraterrestrial environments
- Ghaleb Natour (Forschungszentrum Juelich GmbH)
-
Kyohei Natsume
(National Institute for Materials Science)
- Author in C1Po1A-02: Active Magnetic Regenerative Refrigerator (AMR) with rotating permanent magnet for liquid hydrogen
- Co-author in C1Po1A-01: Numerical simulation of active magnetic regenerative refrigeration for hydrogen liquefaction
- Co-author in C1Po1C-02: A new approach for low input and high capacity 4 K Gifford-McMahon cryocooler
- Co-author in C3Po1D-02: Performance improvement of a hydrogen condensation heat exchanger applying intermittent reciprocating flow
- Boyan-Kaloyanov Naydenov Popov (CERN)
- Is Haaq Ahamed Mohamed Nazeem (The University of Melbourne)
-
Adrien Neveu
(Rensselaer Polytechnic Institute)
- Author in M4Or1B-05: Investigating dual electrospinning as a means of enhancing passive thermal control coatings for cryogenic propellant storage in extraterrestrial environments
- Co-author in C2Or4D-06: Electrospun Polyvinylidene fluoride co-hexafluoropropylene (PVDF-HFP) for Passive Thermal Management in Space
- Co-author in M1Po3B-04: Assessing the Adhesion of Nanofibrous PVDFHFP as Passive Thermal Control Coatings for the Extraterrestrial Storage of Cryogenic Propellants
- Le-Duy Nguyen (Korea Institute of Machinery and Materials)
- Hai Nguyen (Michigan State University)
- Chinh Nguyen (Michigan State University)
-
Muhammad Tahir Mehmood Khan Niazi
(Florida State University)
- Author in C2Or4C-06: Modeling and Analysis of Graded Heat Exchangers for Cryogenic Power System of Electric Aircraft Using the AeroCryoX
- Author in M3Or3A-04: [Invited] Cryogenic Bus Bar Design for Electric Aircraft Power Distribution
- Author in M4Or1A-03: [Invited] AeroCryoX: A Comprehensive Library of Cryogenic Power System Component Models for Designing Electric Aircraft
- Trevor Nichols (Fermi National Accelerator Lab. (US))
- Arend Nijhuis (University of Twente)
- vladica Nikolic (Fermilab)
- Per Nilsson (European Spallation Source ERIC)
- Gaelle Ninet (CERN)
- Arata Nishimura
- Yuefeng Niu (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China)
- Mathias Noe (Karlsruhe Institute of Technology)
- Dirceu Noriler
- Michael Norris (Northrop Grumman Corporation)
-
Robert Norton
(Thomas Jefferson National Accelerator Facility)
- Co-author in C1Or2A-03: Cold compressor performance and energy consumption improvements at Jefferson Lab’s Central Helium Liquefiers
- Co-author in C1Po1E-05: Commissioning Results of The ESR 2 Compressors at JLab
- Co-author in C2Or4B-05: Replacement and expansion of the cryogenic control system for the Electron Ion Collider at Brookhaven National Laboratory
- Co-author in C2Po1F-05: Conceptual design of a replacement 2.1 K cold box for the Spallation Neutron Source Central Helium Liquefier
- Co-author in C3Or2B-04: Performance Testing of the 4kW ESR 2 Refrigerator at JLab
- Brian ds.LDAP.sn Not Supplied (Oak Ridge National Laboratory - Spallation Neutron Source)
- Igor Novitski
- Masakazu NOZAWA (National Institute of Technology, Akita College)
-
Takenori Numazawa
(NIMS)
- Co-author in C1Po1A-01: Numerical simulation of active magnetic regenerative refrigeration for hydrogen liquefaction
- Co-author in C1Po1A-02: Active Magnetic Regenerative Refrigerator (AMR) with rotating permanent magnet for liquid hydrogen
- Co-author in C1Po1C-02: A new approach for low input and high capacity 4 K Gifford-McMahon cryocooler
- Co-author in C3Po1D-02: Performance improvement of a hydrogen condensation heat exchanger applying intermittent reciprocating flow
- Bryce O'Bard
- Xavier Obradors (Institut de Ciencia de Materials de Barcelona, CSIC)
- Adam O'Brien
- Victor Ogunjimi (University of Kansas)
- Victor Ogunjimi (University of Kansas)
- Kiichi Ohtsu (National Institutes for Quantum Science and Technology)
- Saori Okihara (National Institute for Materials Science)
- Lucas O'Neill
- Rath Ong
- Yoshihiro Onishi (National Institutes for Quantum Science and Technology)
- Aleksandra Onufrena (CERN)
- Marcin Opalski (Wrocław University of Science and Technology / Université Paris-Saclay)
- Juan Ordonez (FAMU-FSU College of Engineering)
- Babatunde "O'Sheg" Oshinowo, Sr. Ph.D, FRICS
- Hirokazu Otsubo (Toyota Motor Corporation)
- Simon Otten
- Florian Otto (attocube systems AG)
- Joseph Ozelis (Fermi National Accelerator Laboratory)
- Lucjan Pajdzik (Oxford Cryosystems Ltd)
- Lex Palmer (Commonwealth Fusion Systems)
-
Sastry Pamidi
- Author in C2Or4C-06: Modeling and Analysis of Graded Heat Exchangers for Cryogenic Power System of Electric Aircraft Using the AeroCryoX
- Author in M1Or2A-01: [Invited] Advanced Cryogenic Cooling Concepts for Superconducting Technologies on Electric Transport Platforms
- Author in M4Or1A-03: [Invited] AeroCryoX: A Comprehensive Library of Cryogenic Power System Component Models for Designing Electric Aircraft
- Co-author in C3Or3A-02: Testbed for high current and high voltage characterization of gaseous helium cooled HTS power cables for electric transport systems
- Co-author in C3Or4A-03: Transient system-level cryogenic thermal management models of liquid hydrogen-fueled electric aircraft
- Co-author in M3Or3A-01: [Invited] Cryogenic Thermal Management of Power Conversion Devices on Liquid Hydrogen Fueled Electric Aircraft
- Co-author in M4Or1A-04: [Invited] Liquid Hydrogen for Sustainable Energy Systems: Latest Development, Challenges and Opportunities
- Sastry Pamidi (The Florida State University)
-
Zijie Pan
(Technical Institute of Physics and Chemistry, CAS)
- Co-author in C1Po1D-03: Simulation and experimental study of ultra-low temperature heat transfer characteristics of continuous heat exchangers in the dilution refrigerator
- Co-author in C3Po1E-04: Design and testing of a tin superconducting heat switch for adiabatic demagnetization refrigerators
- Co-author in C3Po1F-02: A 100 mW@4.0 K hybrid 4He Joule-Thomson cryocooler for space applications
- Teng Pan (Technical Institute of Physics and Chemistry)
- Zijie Pan (Key Laboratory of Cryogenic Science and Technology, Technical Institute of Physics and Chemistry, Chinese Academy of Science, Beijing 100190, China)
-
Mingtao Pan
(Technical Institute of Physics and Chemistry, Chinese Academy of Science)
- Author in C1Po1B-07: Investigation on a thermal-coupled two-stage pulse tube cryocooler with multi-bypass working at 8 K
- Author in C1Po1B-08: Theoretical and experimental investigation of the effect of the phase shifter on the compressor of pulse tube cryocoolers
- Co-author in C1Po1B-03: Influence of the structure of multi-bypass configuration regenerator on the performance of Pulse Tube Cryocooler
- Co-author in C1Po1B-04: A high frequency lightweight coaxial pulse tube cryocooler operating at 70 K
- Co-author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- George Panasyuk (National Research Council Senior Research Associate)
- Dhawal Panchal (INOX India Limited)
- Mohan Panth (University of Kansas)
- Boyd Panton (The Ohio State University)
- Adrien Parchet
- Michael Parizh
- Jiho Park
- Junyoung Park (Korea Institute of Machinery and Materials)
- Dongseong PARK (ITER Organization)
- Inmyung Park
- Inmyong Park (Institute for Basic Science)
- Jinheung Park (The Ohio State University)
- Taejoon Park
- Sehjin Park (Korea Institute of Machinery and Materials)
- Leila Parsa (U. of California Santa Cruz)
- Riccardo Pasquali (TERRA GEOSERV LIMITED)
- Donato Passarelli
- Paul Passe (HX5, LLC)
-
Pratik Patel
(Fermilab)
- Author in C2Or4B-06: Fermilab PIP-II CDS & CM Cryogenic Controls System
- Co-author in C2Po1B-03: Design of the Tunnel Transfer line of PIP-II Cryogenic Distribution System
- Co-author in C2Po1B-04: PIP-II Cryogenic Distribution System – status and outlook
- Co-author in C2Po1E-07: Real time heat load calculation software based on EPICS for Fermilab PIP-II CM tests
-
Vrushank Patel
- Author in C2Po1B-03: Design of the Tunnel Transfer line of PIP-II Cryogenic Distribution System
- Author in C2Po1C-05: Integration and commissioning experience of Full Flow Purifier at Muon Campus
- Co-author in C2Or4B-06: Fermilab PIP-II CDS & CM Cryogenic Controls System
- Co-author in C2Po1B-04: PIP-II Cryogenic Distribution System – status and outlook
- Co-author in C2Po3A-01: Heat load measurements for the PIP-II pHB650 cryomodule
- Pratik Kumar Manubhai Patel
- Kirit Patel (INOX India Limited)
- Bhushan Patil (Graduate research assistant)
- Anil Patnaik (Air Force Institute of Technology)
- Tate Patterson (Idaho National Lab)
- Liujin Pei
-
Nan Peng
- Author in C1Po3A-08: Dynamic Analysis and Optimization of Aerostatic Bearing-Rotor Systems in Cryogenic Turbo Expanders
- Co-author in C1Po3B-03: Numerical Simulation of the Protective Effectiveness of Bund Walls and the Impact of Key Parameters in Accidental Liquid Hydrogen Releases
- Co-author in C2Po1A-04: Optimizing nozzle-impeller coupling to enhance efficiency in hydrogen Turbo-Expanders
-
Xuan Peng
- Author in M2Po3C-05: Progress of APC and high Cp Nb3Sn conductors in Hyper Tech
- Author in M3Or2A-02: Developing practical Cryogenic high purity aluminum (HPAL) conductor to enable high speed power density motors and generators.
- Author in M3Or4A-04: [Invited] The thermal management of superconducting and aluminum conductors in motors, generators and cables for electric aircraft
- Co-author in M3Or2A-04: Investigating the impact of tensile stress-induced/annealing-affected dislocation and grain boundary on the performance of High Purity Aluminum Wire by EBSD.
- Co-author in M3Or2A-05: Impact of anomalous magnetoresistance and cyclic deformation on RR values of HPAL composites at low temperatures
- Nan Peng (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Nan Peng (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Jesse Peralta (SLAC)
-
Antonio Perin
(CERN)
- Co-author in C3Or4B-01: Operation of CERN’s major tests facility with upgraded cryogenic infrastructure for superconducting magnets, power links, inner triplets String and radio-frequency cavities for HL-LHC
- Co-author in C3Or4B-02: Upgrade of the CERN cryogenic test facility for the HL-LHC superconducting magnets and superconducting links
- H. Douglas Perkins (NASA Glenn Research Center)
-
Lois PERROT
(Air Liquide)
- Co-author in C3Or3D-02: ITER LHe plants first tests results
- Christopher Perry (Thomas Jefferson National Accelerator Facility)
- Rijneveld Peter (DEMACO)
-
Thomas Peterson
(SLAC National Accelerator Laboratory)
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
- Marco Pezzetti (CERN)
- Dirk Pflueckhahn
- Guy Phillips (Fusion for Energy)
- Roland Piccin (CERN)
- Sławomir Pietrowicz (Wrocław University of Science and Technology)
- Tereszkowski Piotr (European Spallation Source ERIC)
- Agnieszka Piotrowska (Wroclaw University of Technology)
-
Olivier Pirotte
(CERN)
- Author in C3Or4B-02: Upgrade of the CERN cryogenic test facility for the HL-LHC superconducting magnets and superconducting links
- Co-author in C2Po1B-01: LHC cryogenic system adaptation and recovery after a major insulation vacuum breakage in a final focusing superconducting magnet in 2023
- Co-author in C3Or4B-01: Operation of CERN’s major tests facility with upgraded cryogenic infrastructure for superconducting magnets, power links, inner triplets String and radio-frequency cavities for HL-LHC
- Erin Pisciotta
- Thiago P.M. Alegre (“Gleb Wataghin” Institute of Physics, UNICAMP, Campinas-SP, 13083-859, Brazil.)
- Luc Pockele (R.E.D. SRL)
- Valeri Poloubotko (Unknown)
- Semyon Ponomaryov (V.E. Lashkaryov Institute of Semiconductor Physics of the National Academy of Sciences of Ukraine)
- Dominika Porwisiak (Fermi National Accelerator Laboratory)
- Farhang Pourboghrat (The Ohio State University)
- Jérôme Pouvreau (Univ. Grenoble Alpes, CEA, IRIG, DSBT, 38000 Grenoble, France)
- Taylor Pratt (Commonwealth Fusion Systems)
- Amila Premakumara (Graduate researcher)
- Amila Premakumara (The University of Melbourne)
- Soren Prestemon
- Tetiana Prikhna
- Herve Prin (CERN)
- Tom Prosper (The Thomas Jefferson National Accelerator Facility)
- David Proveaux III (Oak Ridge National Laboratory)
-
jOHN Pucci
(SLAC)
- Co-author in C1Or2A-02: LCLS-II Cryoplant Operational Availability: 3 Years of Operation
- Co-author in C1Or2C-02: Quantum Computer Test Facility at SLAC using existing Cryogenic Infrastructure
- Co-author in C1Po1E-04: LCLS-II Cryoplant Cooling Water System: Challenges and Remediation
- Co-author in C3Or2B-05: Impact of Power Outage for Large scale cryogenic system operation
- TERESA Puig Molina
- Abhishek Purandare (University of Twente)
- Yinghe Qi (National High Magnetic Field Laboratory, FSU)
- Yukai Qiao (Victoria University of wellington)
- Jinggang Qin
-
Shun Qiu
(Technical institute of physics and Chemistry,CAS)
- Author in C1Po3A-08: Dynamic Analysis and Optimization of Aerostatic Bearing-Rotor Systems in Cryogenic Turbo Expanders
- Co-author in C1Po3B-03: Numerical Simulation of the Protective Effectiveness of Bund Walls and the Impact of Key Parameters in Accidental Liquid Hydrogen Releases
- Co-author in C2Po1A-04: Optimizing nozzle-impeller coupling to enhance efficiency in hydrogen Turbo-Expanders
- Limin Qiu (Zhejiang University, CN)
-
Limin Qiu
(Zhejiang University)
- Author in C1Or4C-07: Experimental Study on Thermodynamic Performance and Lossless Storage of a Vehicle-Mounted Horizontal LH2 Tank
- Co-author in C1Po3C-06: Experimental investigation of CO2 desublimation characteristics in flue gas on horizontal copper plate influenced by surface temperature and CO2 concentration
- Co-author in C1Po3D-04: Transient Heat Transfer in Superfluid Helium from Localized Heating Spots on Spherical Surfaces
- Co-author in C2Po1D-05: Test platforms for ortho-para hydrogen conversion at cryogenic conditions
- Co-author in C2Po1D-06: Design and Optimization of Efficient Catalyst-filled Spiral Wound Heat Exchangers for Large-Scale Hydrogen Liquefaction Systems
- Co-author in C3Or3C-03: Experimental research on a highly compact miniature coaxial pulse tube cryocooler at 80 K
- Co-author in C3Po1D-05: Fundamental insights into liquid hydrogen flow boiling: bubble dynamics and flow characteristic parameters
- Co-author in C3Po1D-07: Optimization of liquid hydrogen tank-to-tank transfer: A comparative study of six transfer systems
- Shun Qiu (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Sun Qiu (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Yongfeng QU
- Hans Quack (TU Dresden)
-
Jia Quan
- Author in C1Po1B-10: Research on the Influence of Average Pressure on the Thermodynamic Cycle and Performance of Pulse Tube Cryocoolers
- Author in C3Po1F-03: Performance optimization of a 4K hybrid JT cooler for space application
- Co-author in C1Po1B-05: Numerical and experimental investigation of the compressor coupling characteristic of a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1B-07: Investigation on a thermal-coupled two-stage pulse tube cryocooler with multi-bypass working at 8 K
- Co-author in C2Po1A-09: Development of the linear Compressor of 152Hz Micro Pulse Tube Cryocooler
- Co-author in C3Po1E-04: Design and testing of a tin superconducting heat switch for adiabatic demagnetization refrigerators
- Co-author in C3Po1F-02: A 100 mW@4.0 K hybrid 4He Joule-Thomson cryocooler for space applications
- Roger Jon Rabehl (Fermi National Accelerator Lab. (US))
- Kyle Radcliff (Advanced Conductor Technologies, Boulder, CO, USA & the University of Colorado, Boulder, CO, USA)
- Ray Radebaugh (NIST)
- Andrew Raineri (University of Akron)
- Neeharika Rajagiri (Shell)
-
Biren Rama
- Co-author in C1Or2A-02: LCLS-II Cryoplant Operational Availability: 3 Years of Operation
- Co-author in C1Or2C-02: Quantum Computer Test Facility at SLAC using existing Cryogenic Infrastructure
- Co-author in C1Po1E-04: LCLS-II Cryoplant Cooling Water System: Challenges and Remediation
- Co-author in C3Or2B-05: Impact of Power Outage for Large scale cryogenic system operation
- Biren Rama
- Rajinikumar Ramalingam
- Chris Rampersaud (Ability Engineering Technology)
-
Hannah Rana
(Center for Astrophysics | Harvard & Smithsonian)
- Author in C1Po1B-01: In-line and coaxial configuration performances of Stirling pulse tube cryocoolers for spaceflight
- Author in C2Po3C-02: Machine Learning Methods for Cryocooler Performance Optimization and Failure Prediction
- Author in C3Po1F-08: Power requirements and energy recovery in Stirling and pulse tube cryocoolers for space missions
- Co-author in M1Po3B-01: Fatigue analysis of Stirling cryocooler flexure springs for long space mission lifetime
- Hannah Rana (Harvard University & NASA Jet Propulsion Lab)
- Shreya Ranpariya
- Edward Ransley (University of Plymouth)
-
Viswanath Ravindranath
- Co-author in C1Or2A-02: LCLS-II Cryoplant Operational Availability: 3 Years of Operation
- Co-author in C1Or2C-02: Quantum Computer Test Facility at SLAC using existing Cryogenic Infrastructure
- Co-author in C1Po1E-04: LCLS-II Cryoplant Cooling Water System: Challenges and Remediation
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
- Co-author in C3Or2B-05: Impact of Power Outage for Large scale cryogenic system operation
- Théophile RAZAT (Air Liquide)
- William Reaves (Bionetics LASSO, Kennedy Space Center, Cryogenics Test laboratory, KSC, FL 32899 USA)
- Sebastian Rehfeldt (Technical University of Munich, TUM School of Engineering and Design, Department of Energy and Process Engineering, Institute of Plant and Process Technology, Garching/Germany)
- Jakob Reichert
- Diogo Reis Santos (CERN)
- Alex Renshaw (Oxford Cryosystems Ltd)
- Justin Ricci (GE HealthCare Technology and Innovation Center, Niskayuna, NY 12309, USA)
- Thomas Rich (Oxford Cryosystems Ltd)
- Paul Richardson (United Kingdom Atomic Energy Authority)
- Ian Richardson (Plug Power)
-
Harold Richemond
(Air Liquide)
- Co-author in C3Or3D-02: ITER LHe plants first tests results
- Lukas Richter
- J. Rietberg (University of Twente, Faculty of Science & Technology, Enschede, The Netherlands)
-
Matt Rindfleisch
(Hyper Tech Research)
- Author in M3Or2A-02: Developing practical Cryogenic high purity aluminum (HPAL) conductor to enable high speed power density motors and generators.
- Author in M3Or3A-05: [Invited] A high power two-pole quick connect junction between lightweight cryoresistive and superconducting aerospace power transmission cables
- Author in M3Or4A-04: [Invited] The thermal management of superconducting and aluminum conductors in motors, generators and cables for electric aircraft
- Co-author in M2Po3C-05: Progress of APC and high Cp Nb3Sn conductors in Hyper Tech
- Co-author in M3Or3A-03: [Invited] Lightweight cryoresistive and superconducting aerospace power transmission cables: experiments and theory
- Chris Rista
- Alessandro Rizzato
- Enrique Rodriguez Castro (University Carlos III (ES))
- Zbigniew Rogala (Wroclaw University of Science and Technology)
- Vincent Roger
- Aleksandr Romanov
- Arno Romanowski (PREVENT GMBH)
- Eberhard Rosenthal
- Eivind Rostad (CERN)
- Robert Roszak
- Marco Roveta
- Reid Ruggles (NASA)
- Berta Ruiz Palenzuela (University Carlos III (ES))
- Stephan Russenschuck (CERN)
- David Mensah Sackey (FAMU-FSU College of Engineering, Department of Electrical & Computer Engineering)
-
Oscar Sacristan De Frutos
(CERN)
- Author in M2Po3E-01: Thermal and Mechanical Characterization of REBCO HTS Tapes and Stacks for Magnet Design in the Muon Collider Study
- Author in M3Or4B-05: [Invited] Advancing Cryogenic Material Testing for High-Field Superconducting Magnets
- Co-author in M2Po3B-01: Development of a thermal conductivity test bench at cryogenic temperatures
- Glynne Saelid
- Kazutoyo Sagara (Aoyama Gakuin University)
- Shin Sakai (The University of Tokyo)
- Ryota Sakurai (National Institutes for Quantum Science and Technology)
- Hasala Sakvithi (The University of Melbourne)
- Hasala Sakvithi (Graduate Researcher)
- Noah Salk
- Jerone Samari (Jefferson Science Associates)
- Brandonlee Santos (Canyon Magnet Energy)
- James K Santucci (Fermilab)
- Claire Saunders (Commonwealth Fusion Systems)
- Frederic Savary (CERN)
-
LAURA SAVOLDI
- Author in M2Po3E-05: Measurement of Transverse Resistance for Stacks of Non-insulated REBCO Tapes
- Author in M3Or3B-04: AC-loss Analysis in Stacks of Non-insulated REBCO Tapes
- Co-author in M2Po3B-04: Experimental assessment of the parasitic thermal load on cryogenic envelope for superconductive cables
- Sebastian Schaile (attocube systems AG)
-
Justin Scheidler
(NASA Glenn Research Center)
- Author in M2Or4A-05: [Invited] Motor configuration selection for a new technical challenge to develop a 5 MW cryogenic motor and drive
- Co-author in M3Or3B-03: Test Results for the Commissioning of NASA’s AC Loss Superconducting Coil Test Rig
- Co-author in M3Or3B-08: Superconducting Coil Pack Manufacturing and Risk Reduction Testing for NASA’s AC Loss Test Rig
- Vincent Schenk
- Christian Scheuerlein (CERN)
- Sonja Schlachter
- Tobias Schnautz
- Daniela Schob
- Stephan Schoenen (Forschungszentrum Juelich GmbH)
- Hidde Schot (Thales cryogenics)
- Johannes Schreiber (Linde Kryotechnik AG)
- Julian Schunk
-
Mary Ann Sebastian
(University of Dayton Research Institute & Air Force Research Laboratory RQQM WPAFB)
- Author in M1Po3A-03: The Effect of Calcium Doped Y-Ba-Cu-O (CaY123) Layer Thickness on the Flux Pinning in (CaY123 / BaZrO3 Doped Y-Ba-Cu-O) Multilayer Composite Films at a Wide Range of Temperatures and Applied Fields
- Co-author in M2Or4B-02: Role of Ca diffusion in BaZrO3 nanorods/YBa2Cu3O7-x multilayer nanocomposite films
- Hiroyo Segawa (National Institute for Materials Science)
- Ettore Segreto (“Gleb Wataghin” Institute of Physics, UNICAMP, Campinas-SP, 13083-859, Brazil.)
- Eric Seitz
- Takatoshi Seki (National Institute for Materials Science)
- Luigi Serio (CERN)
- Luca Sessarego (Università di Genova)
-
Javier Sevilla
(SLAC National Lab)
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
- Fabien Seyvet (Fusion for Energy)
- Stefano Sgobba (CERN)
- Jin Shang
- Shouqiang Shao (Zhejiang Juhua Equipment Engineering Group Co., Ltd.)
- Vivek Sharma (IIT Kharagpur India)
- Jonathan Shaxted (Oxford Cryosystems Ltd)
- Fuzhi Shen
- Jun Shen (University of Chinese Academy of Sciences)
- Tengming Shen
- Jianan Shen (Purdue University)
- He Sheng
-
Matthew Shenton
- Author in C3Or3B-04: Development of hydrogen-filled traveling-wave thermoacoustic engine for powering pulse-tube and traveling-wave refrigerators
- Co-author in C2Po3D-03: A deployable barrier preventing liquid oxygen accumulation and safety risks during liquid hydrogen transfers
- Co-author in C2Po3D-04: Catalytic materials for ortho-parahydrogen conversion in a thermoacoustic cryocooler regenerator
- Xiaoyan Shi (Canyon Magnet Energy)
- Chaoyue Shi
- Xu Shi (Dalian Institute of Chemical Physics, Chinese Academy of Sciences)
- changzhen Shi (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China)
- Guoyou Shi (Zhejiang Juhua Equipment Engineering Group Co., Ltd.)
- Takeshi Shimazaki (AIST)
- Jun-ichi Shimoyama
- Jae Hee Shin (Institute for Basic Science)
- Tsuyoshi Shirai (University of Tsukuba)
- Tsuyoshi Shirai (National Institute for Materials Science)
- Yuko Shiroyanagi
- Mazdak Shokrian (Plug Power)
-
Swapnil Shrishrimal
(SLAC National Accelerator Laboratory)
- Author in C1Or2C-02: Quantum Computer Test Facility at SLAC using existing Cryogenic Infrastructure
- Author in C3Or2B-05: Impact of Power Outage for Large scale cryogenic system operation
- Co-author in C1Or2A-02: LCLS-II Cryoplant Operational Availability: 3 Years of Operation
- Co-author in C1Po1E-04: LCLS-II Cryoplant Cooling Water System: Challenges and Remediation
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
- Quansheng Shu
- Daniel Siebe (Technical University of Munich, TUM School of Engineering and Design, Department of Energy and Process Engineering, Institute of Plant and Process Technology, Garching/Germany)
- Kideok Sim (SuperGenics Co. Ltd., Changwon, South Korea)
- Marc Simon (Fusion for Energy)
- Daniel Simon
- James Simons (BAE Systems Inc.)
- Samith Sirimanna (HInetics Inc)
- Kim Skatun (Engineer)
- Marek Skiba (European Spallation Source ERIC)
- Luke Sloan (The University of Texas at Austin)
- Pawel Slupski (Department of Geosciences, UNIPD)
- Anis Smara
- Charles Smith (Oak Ridge National Laboratory)
- Ryan Snodgrass
- Honghai Song
- Vijay Soni (GE HealthCare Technology & Innovation Center, Niskayuna, NY USA)
- Elizabeth Sorenson (1National Institute of Standards and Technology, Colorado, USA, 2University of Colorado at Boulder, Colorado USA)
- William Soyars
- Celal Soyarslan (University of Twente)
- Nassos Spetsieris (National Physical Laboratory)
- Michał Stanclik (Wroclaw University of Science and Technology)
- Wolfgang Stautner (GE HealthCare – Technology & Innovation Center (HTIC))
- Olaf Steinmeier (Fraunhofer IAPT)
- Timo Stengler
-
Vadim Stepanov
(CEA Paris-Saclay)
- Co-author in C1Po1C-03: Parametric thermal characterization of Sumitomo RDE-418D4 two-stage Gifford-McMahon cryocooler
- Co-author in C1Po3A-05: Experimental study of two thermally-connected hydraulically- independent 20-tube neon pulsating heat pipes working in parallel
- Co-author in C3Or3B-05: Large diameter helium pulsating heat pipe as promising thermal link for cryocooler-cooled superconducting magnet systems
- Co-author in C3Or3B-06: Compact nitrogen pulsating heat pipes – Experimental thermal analysis with numerical insights
- Gregory Stephens (Oak Ridge National Laboratory)
- Sascha Stevens (Dynovas)
- Laura Stops (Technical University of Munich, TUM School of Engineering and Design, Department of Energy and Process Engineering, Institute of Plant and Process Technology, Garching/Germany)
- Nick Strickland (Victoria University of Wellington)
- Katarzyna Strzelecka (Wroclaw University of Science and Technology)
- Heiko Stuckenberg (Aerzener Maschinenfabrik GmbH)
- Jeewan Subedi
- Chris Sullivan (L3Harris Technologies)
-
Mike Sumption
- Author in C1Po3A-07: Lumped Modeling of Cooling and Electric Devices in Aircraft
- Author in M1Po3C-03: Thermal Modeling of CCT Dipole Magnets wound using Defected REBCO Cables
- Author in M2Po3E-02: Contact resistance effect on current sharing in defected superconducting REBCO tape stack cables: FEM modeling
- Author in M3Or2A-02: Developing practical Cryogenic high purity aluminum (HPAL) conductor to enable high speed power density motors and generators.
- Author in M3Or3A-05: [Invited] A high power two-pole quick connect junction between lightweight cryoresistive and superconducting aerospace power transmission cables
- Author in M3Or3B-02: AC Loss in Round, Multifilamentary Superconducting Strands at High Frequencies
- Author in M3Or4A-03: [Invited] Development of a 1 MW+ High power density induction motor for electric aircraft propulsion using Cryogenic Aluminum Windings
- Author in M3Or4A-04: [Invited] The thermal management of superconducting and aluminum conductors in motors, generators and cables for electric aircraft
- Co-author in C3Po1C-05: Experimental study on inclined two-phase flow cooling of multi-stranded aluminum cable
- Co-author in M2Or1A-04: FEM and Modelica Modelling of Current Sharing in Tape Stack Cables; Influence of ICR, ITR, Defect Number, Defect Patterns, and Thermal Boundary Conditions
- Co-author in M2Or4A-04: [Invited] Overview and Progress Update on a Superconducting Powertrain for CHEETA
- Co-author in M2Po3C-05: Progress of APC and high Cp Nb3Sn conductors in Hyper Tech
- Co-author in M2Po3D-02: Modelica Modelling of HTS Dipole Magnet windings, and the influence of cable defects on Thermal and Electrical Sharing in the Cross Section
- Co-author in M2Po3D-03: Modeling and Analysis of Magnetization in ReBCO Coated Tape Conductor and Helical Wound Tape Conductors
- Co-author in M2Po3D-04: AC loss models of standard and non-standard arrangements of Y-Ba-Cu-O tapes in stacks
- Co-author in M3Or1A-03: Simulations of a modified CLIQ System using Split MgB2 Coils and Simultaneous Joule Heating Using a Lumped Parameter Model
- Co-author in M3Or2A-04: Investigating the impact of tensile stress-induced/annealing-affected dislocation and grain boundary on the performance of High Purity Aluminum Wire by EBSD.
- Co-author in M3Or2A-05: Impact of anomalous magnetoresistance and cyclic deformation on RR values of HPAL composites at low temperatures
- Co-author in M3Or3A-03: [Invited] Lightweight cryoresistive and superconducting aerospace power transmission cables: experiments and theory
- Co-author in M3Or3B-05: Tradeoffs Curves and Penalty Functions for AC losses and Je relevant to high-power-density motor applications and their use in comparing various superconductors and normal metal conductors
- Co-author in M3Or3B-06: Flux Jumping in High Magnetic Fields for Stack Tape Cables and its Mitigation
- Yueming Sun (Robinson Research Institute, Victoria University of Wellington)
- Haojie Sun
- Chih-Jen Sung (School of Mechanical, Aerospace and Manufacturing engineering, University of Connecticut)
- Zu hawn Sung
-
Adam Swanger
- Author in C3Or4A-01: Upgrades and initial weathering test results of the liquefied natural gas testbed at NASA Kennedy Space Center
- Author in M4Or1B-04: Thermal performance of common bulk-fill cryogenic insulation materials in helium and hydrogen background gasses
- Co-author in C1Or4C-05: Development of novel non-vacuum insulation system for large-scale liquid hydrogen storage applications
- Co-author in C2Or4D-06: Electrospun Polyvinylidene fluoride co-hexafluoropropylene (PVDF-HFP) for Passive Thermal Management in Space
- Co-author in M1Po3B-04: Assessing the Adhesion of Nanofibrous PVDFHFP as Passive Thermal Control Coatings for the Extraterrestrial Storage of Cryogenic Propellants
- Co-author in M4Or1B-05: Investigating dual electrospinning as a means of enhancing passive thermal control coatings for cryogenic propellant storage in extraterrestrial environments
- Mathieu Szmigiel (Air Liquide Advanced Technologies)
-
Jakub Tabin
(Institute of Fundamental Technological Research PAS)
- Author in M2Or2A-05: In-Situ Monitoring of Strain Field Evolution and Dissipative Effects at Cryogenic Temperatures (77K): Insights into Advanced Materials for Superconducting and Hydrogen Storage Applications
- Co-author in M2Or2A-01: Numerical and Experimental Investigation of Deformation Induced Martensitic Transformation in Fused Filament Fabricated Austenitic Stainless Steel for Cryogenic Applications
- Suguru Takada
- Koji Takahashi
- Shigeyuki Takami (National Institute for Fusion Science)
- Masaki Takeuchi (RIMTEC)
- Eric Taleff (University of Texas at Austin)
- Thomas Tallerico (NASA Glenn Research Center)
- Patrick Talty (Brookhaven National Laboratory)
- Elena Tamanini
- Deepthi Tammana (Commonwealth Fusion Systems)
-
Qingjun Tang
(1 Key Laboratory of Technology on Space Energy Conversion, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China)
- Author in C1Po1B-10: Research on the Influence of Average Pressure on the Thermodynamic Cycle and Performance of Pulse Tube Cryocoolers
- Co-author in C1Po1B-02: 1 W@28.2 K micro single-stage coaxial pulse tube cryocooler operating at 52 Hz using precooling
- Co-author in C1Po1B-03: Influence of the structure of multi-bypass configuration regenerator on the performance of Pulse Tube Cryocooler
- Co-author in C1Po1B-04: A high frequency lightweight coaxial pulse tube cryocooler operating at 70 K
- Co-author in C1Po1B-09: Simulation and experimental of phase shifter in high frequency pulse tube cryocooler
- Liangguang Tang (Energy Business Unit, Commonwealth Scientific and Industrial Research Organisation (CSIRO))
-
Hideki Tatsumoto
(European Spallation Source ERIC (ESS))
- Author in C1Po1A-06: Updated design of the ESS cryogenic moderator system
- Author in C2Or2C-05: Development of a simulation code for analyzing pressure and temperature fluctuations in the J-PARC cryogenic moderator system
- Author in C2Po1A-05: Performance assessment of liquid hydrogen pump for the ESS cryogenic moderator system during initial commissioning using helium
- Author in C2Po1A-06: Basic design of a 17 kW orifice type heater for the ESS cryogenic moderator system
- Author in C2Po3B-02: Verification and optimization of cooldown operation mode for the ESS cryogenic moderator system during preliminary commissioning using helium
- Author in C2Po3B-03: Results of fundamental operational function tests for the ESS cryogenic moderator system during preliminary commissioning with helium
- Author in C2Po3B-04: Thermal fluctuation mitigation in the ESS cryogenic moderator system induced by proton beam injection or trip: cooling power control in Preliminary commissioning
- Author in C3Or4B-03: Commissioning results of the ESS cryogenic moderator system using helium
- Co-author in C2Po3B-05: Numerical estimation of pressure drop of subcooled parahydrogen flow in the ESS Cryogenic Moderator System.
- Co-author in C3Po1B-05: Performance test and optimization of the control system for the ESS cryogenic moderator system
- Co-author in C3Po1B-06: Development of the 17 kW orifice-type heater control system for thermal compensation induced by nuclear heating at the ESS hydrogen moderators
- Ryan Taylor (BAE Systems Inc.)
- Trinity Templeton
- Junjie Teng
- Herman ten kate
- Erin Tesny
-
Roberto Than
(Brookhaven National Lab)
- Co-author in C1Po1E-02: Assessment of the existing cryogenic central plant for the Electron Ion Collider cryogenic loads at Brookhaven National Laboratory
- Co-author in C2Or4A-01: Design of satellite cryogenic plants for the Electron-Ion Collider at Brookhaven National Lab
- Co-author in C2Or4B-05: Replacement and expansion of the cryogenic control system for the Electron Ion Collider at Brookhaven National Laboratory
- Jay Theilacker (Fermilab)
- Sachintha Thejan (The University of Melbourne)
- Sadeep Thilakarathna (The University of Melbourne)
- Allyson Thomas
-
Yihan Tian
(Key Laboratory of Cryogenic Science and Technology, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Author in C1Po1C-05: Study on the multiple cooling output characteristics of a gas-coupled high-frequency pulse tube cryocooler
- Author in C1Po3D-02: Study on Helium Adsorption Properties of Carbon Nanotubes in the Liquid Helium Temperature Range Based on the Monte Carlo Method
- Author in C3Po1D-08: Stress Distribution and Sealing Performance Analysis of Metal Sealing Joints in Liquid Hydrogen Pipelines
- Author in C3Po1D-09: Simulation Study on the Thermal Insulation Performance of Liquid Hydrogen Transport Pipelines
- Author in C3Po1F-04: Study on Cryogenic Fluid Circulation Loops for Efficient Heat Transfer of Small Cooling Capacities in the 4-20 K Temperature Range
-
Bo Tian
- Author in C1Po1B-04: A high frequency lightweight coaxial pulse tube cryocooler operating at 70 K
- Co-author in C1Po1B-02: 1 W@28.2 K micro single-stage coaxial pulse tube cryocooler operating at 52 Hz using precooling
- Co-author in C1Po1B-07: Investigation on a thermal-coupled two-stage pulse tube cryocooler with multi-bypass working at 8 K
- Co-author in C1Po1B-08: Theoretical and experimental investigation of the effect of the phase shifter on the compressor of pulse tube cryocoolers
- Michael Tiefenback (Jefferson Science Associates)
- Justin Tillman
- Jared Tippens (Oak Ridge National Laboratory)
- Ryo Toda (Cryogenic Research Center, The University of Tokyo)
- Valerio Tomarchio (Fusion for Energy (F4E))
- Benjamin Tomlinson (NASA Armstrong Flight Research Facility)
-
Mike Tomsic
- Author in M3Or2A-02: Developing practical Cryogenic high purity aluminum (HPAL) conductor to enable high speed power density motors and generators.
- Author in M3Or4A-04: [Invited] The thermal management of superconducting and aluminum conductors in motors, generators and cables for electric aircraft
- Co-author in M2Po3C-05: Progress of APC and high Cp Nb3Sn conductors in Hyper Tech
- Terry Tope (Fermilab)
- William Touza (Florida State University)
- Kathy Trengove (Iris Technology Corporation)
- Nikolaos Trikoupis (CERN)
- Ulf Trociewitz (Applied Superconductivity Center/National High Magnetic Field L)
- Huang-Hsiu Tsai (National Synchrotron Radiation Research Center)
- Huang-Hsiu Tsai (National Synchrotron Radiation Research Center)
- J. Tschirhart (Thomas Jefferson National accelerator facility)
- Katsuhiko Tsuchiya (National Institutes for Quantum Science and Technology)
- Takehisa Tsurudome (Sumitomo Heavy Industries, Ltd.)
-
Liam Turner
(Monash University)
- Author in C2Po1D-01: Magnetic field acceleration of catalyzed para- to orthohydrogen conversion for cooling superconducting motors
- Co-author in C2Po1D-02: Improving the activation of ortho-para hydrogen conversion catalysts for hydrogen liquefaction: Effects of pre-treatment on the performance of Ionex OP
- Daniele Turrioni
- Kyle Twarog (School of Mechanical, Aerospace and Manufacturing engineering, University of Connecticut)
- Nir Tzabar
-
Akira Uchida
(National Institute for Materials Science)
- Co-author in C1Po1A-01: Numerical simulation of active magnetic regenerative refrigeration for hydrogen liquefaction
- Co-author in C1Po1A-02: Active Magnetic Regenerative Refrigerator (AMR) with rotating permanent magnet for liquid hydrogen
- Co-author in C3Po1D-02: Performance improvement of a hydrogen condensation heat exchanger applying intermittent reciprocating flow
- Joel Ullom (NIST)
- Kevin Uvodich (HInetics Inc)
- Theresa Vaites (Naval Surface Warfare Center, Philadelphia Division)
- Anne-Marie Valente-Feliciano
- Juan Valenzuela (NASA)
- Giorgio Vallone (Lawrence Berkeley National Lab. (US))
- Srinivas Vanapalli (University of Twente)
- Arnaud Vande Craen (CERN)
- A.H. van den Boogaard (University of Twente)
- Danko van der Laan
- Casimir Van Doorne (Shell Projects and Technology)
- Christopher Van Epps (GE HealthCare Technology and Innovation Center, Niskayuna, NY 12309, USA)
- Frederick Van Keuls (HX5, LLC)
- Brian van Kuik (Brookhaven National Laboratory)
- Hans van Oort (University of Twente)
- Stephen van Sciver (Canyon Magnet Energy)
- Jan van Steenlandt
- Peter Van Velze (European Spallation Source ERIC)
-
Theodoros Vasilopoulos
(European Spallation Source ERIC)
- Co-author in C2Po1A-05: Performance assessment of liquid hydrogen pump for the ESS cryogenic moderator system during initial commissioning using helium
- Co-author in C2Po3B-02: Verification and optimization of cooldown operation mode for the ESS cryogenic moderator system during preliminary commissioning using helium
- Co-author in C2Po3B-03: Results of fundamental operational function tests for the ESS cryogenic moderator system during preliminary commissioning with helium
- Co-author in C2Po3B-04: Thermal fluctuation mitigation in the ESS cryogenic moderator system induced by proton beam injection or trip: cooling power control in Preliminary commissioning
- Co-author in C3Or4B-03: Commissioning results of the ESS cryogenic moderator system using helium
- Co-author in C3Po1B-05: Performance test and optimization of the control system for the ESS cryogenic moderator system
- Co-author in C3Po1B-06: Development of the 17 kW orifice-type heater control system for thermal compensation induced by nuclear heating at the ESS hydrogen moderators
- Christophe Vasse (Thales)
- Gueorgui Velev
- Raatan Venkataraman (HInetics Inc)
- Simon-Didier Venzal (Thales)
- Abhishek Verma (Indian Institute of Technology Bombay)
- Mark Vermilyea (GE HealthCare Technology and Innovation Center, Niskayuna, NY 12309, USA)
- RJ Victoria
- Alvaro Vidal
- Guillaume VINCENT (ITER Organisation)
- Youri Viouchkov (Canyon Magnet Energy)
- Stephanie Vivod (NASA GRC)
- Roxana Vlad (ICMAB-CSIC)
- tuan vo (Ability Engineering Technology)
- Erik Voirin
- Sreenivasa Voleti
- Hardik Vyas (INOX India Limited)
-
Saee Vyawahare
(Stanford National Accelerator Laboratory)
- Author in C1Or2A-02: LCLS-II Cryoplant Operational Availability: 3 Years of Operation
- Author in C1Po1E-04: LCLS-II Cryoplant Cooling Water System: Challenges and Remediation
- Co-author in C1Or2C-02: Quantum Computer Test Facility at SLAC using existing Cryogenic Infrastructure
- Co-author in C2Po3B-01: CRMF Cryogenic System Overview
- Co-author in C3Or2B-05: Impact of Power Outage for Large scale cryogenic system operation
- Tim Wallace (Fermilab)
- Robert Walsh (Materials Reliability Inc.)
- Chuancong Wan (Zhejiang University)
- Fang Wan (Fermi National Accelerator Lab)
- Xiaotao Wang
-
Junjie Wang
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Author in C1Po1C-05: Study on the multiple cooling output characteristics of a gas-coupled high-frequency pulse tube cryocooler
- Author in C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- Author in C1Po3C-01: A study of the whole life cycle carbon emission of liquid air energy storage system
- Author in C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- Author in C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- Author in C1Po3D-02: Study on Helium Adsorption Properties of Carbon Nanotubes in the Liquid Helium Temperature Range Based on the Monte Carlo Method
- Author in C1Po3D-03: Measurement of Apparent Thermal Conductivity of Insulation Materials at Cryogenic Temperatures
- Author in C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- Author in C2Po3D-09: A Liquid Air Energy Storage (LAES) System Utilizing Upgraded LNG Cold Energy for Air Liquefaction
- Author in C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- Author in C3Po1D-08: Stress Distribution and Sealing Performance Analysis of Metal Sealing Joints in Liquid Hydrogen Pipelines
- Author in C3Po1D-09: Simulation Study on the Thermal Insulation Performance of Liquid Hydrogen Transport Pipelines
- Author in C3Po1F-04: Study on Cryogenic Fluid Circulation Loops for Efficient Heat Transfer of Small Cooling Capacities in the 4-20 K Temperature Range
- Co-author in C2Po3C-01: Thermodynamic and mechanical properties of solid-phase media for moving cryogenic energy storage packed beds
- Tao Wang
- Xiaorong Wang
-
Haiyan Wang
(Purdue University)
- Co-author in M1Po3A-03: The Effect of Calcium Doped Y-Ba-Cu-O (CaY123) Layer Thickness on the Flux Pinning in (CaY123 / BaZrO3 Doped Y-Ba-Cu-O) Multilayer Composite Films at a Wide Range of Temperatures and Applied Fields
- Co-author in M2Or4B-02: Role of Ca diffusion in BaZrO3 nanorods/YBa2Cu3O7-x multilayer nanocomposite films
- Qidong Wang (Zhejiang University)
-
Xuanjie Wang
- Co-author in C2Or4D-06: Electrospun Polyvinylidene fluoride co-hexafluoropropylene (PVDF-HFP) for Passive Thermal Management in Space
- Co-author in M1Po3B-04: Assessing the Adhesion of Nanofibrous PVDFHFP as Passive Thermal Control Coatings for the Extraterrestrial Storage of Cryogenic Propellants
- Co-author in M4Or1B-05: Investigating dual electrospinning as a means of enhancing passive thermal control coatings for cryogenic propellant storage in extraterrestrial environments
- xilong wang (Dalian Institute of Chemical Physics, Chinese Academy of Sciences)
- Nailiang Wang (Technical Institute of Physics and Chemistry)
- Yaqiong Wang (Insititute of Advanced Science Facilities, Shenzhen)
-
Zhikang Wang
- Author in C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- Author in C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- Author in C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- Author in C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- Author in C2Po3D-09: A Liquid Air Energy Storage (LAES) System Utilizing Upgraded LNG Cold Energy for Air Liquefaction
- Author in C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- Co-author in C2Po3C-01: Thermodynamic and mechanical properties of solid-phase media for moving cryogenic energy storage packed beds
-
Kai Wang
(Zhejiang University)
- Author in C1Or4C-07: Experimental Study on Thermodynamic Performance and Lossless Storage of a Vehicle-Mounted Horizontal LH2 Tank
- Co-author in C1Po3D-04: Transient Heat Transfer in Superfluid Helium from Localized Heating Spots on Spherical Surfaces
- Co-author in C2Po1D-05: Test platforms for ortho-para hydrogen conversion at cryogenic conditions
- Co-author in C2Po1D-06: Design and Optimization of Efficient Catalyst-filled Spiral Wound Heat Exchangers for Large-Scale Hydrogen Liquefaction Systems
- Co-author in C3Po1D-05: Fundamental insights into liquid hydrogen flow boiling: bubble dynamics and flow characteristic parameters
- Co-author in C3Po1D-06: Dynamic Characteristics of Transfer Processes in Port-Based Liquid Hydrogen Receiving Terminals
- Co-author in C3Po1D-07: Optimization of liquid hydrogen tank-to-tank transfer: A comparative study of six transfer systems
- Dongliang Wang (Institute of Electrical Engineering, CAS)
- Li Wang
- Juan Wang (Technical Institute of Physics and Chemistry, CAS)
- Qian Wang (Zhongshan Institute of Advanced Cryogenic Technology)
- Chumin Wang Chen (Instituto de Investigaciones en Materiales, Universidad Nacional Autonoma de Mexico)
- Manfred Wanner
- Laurent Warnet (University of Twente)
- Paul Webley (Monash University)
- Timo Weckerle (Karlsruhe Institute of Technology)
-
Lingjiao Wei
(Technical Institute of Physics and Chemistry, CAS)
- Author in C1Po1D-04: Design and performance evaluation of a closed-cycle ³He sorption cooler
- Co-author in C1Po1D-02: Design and experiments of 1 K superfluid 4He system for precooling the ultra-low temperature refrigerators
- Co-author in C1Po1D-03: Simulation and experimental study of ultra-low temperature heat transfer characteristics of continuous heat exchangers in the dilution refrigerator
- Co-author in C3Po1E-04: Design and testing of a tin superconducting heat switch for adiabatic demagnetization refrigerators
- Xinyu Wei (zhejiang university)
- John Weisend (European Spallation Source ERIC (ESS))
- Jeremy Weiss (Advanced Conductor Technologies and University of Colorado, Boulder)
- Ian Wells
- John Wenstrom (Michigan State University)
-
W.A.J. Wessel
- Author in M2Po3E-03: Mechanical characterization and critical current irreversibility limit of different ReBCO tapes
- Co-author in M1Or4A-03: [Invited] Quantifying the relation between strain energy release rate and heat generated in the CTD-101K epoxy resin magnet impregnant at cryogenic temperatures
- Zack West (Fermi National Accelerator Laboratory, PO Box 500, Batavia IL 60510, United States)
-
Michael White
- Author in C2Po1C-05: Integration and commissioning experience of Full Flow Purifier at Muon Campus
- Author in C2Po1C-06: Helium recovery system at IB3a
- Co-author in C2Po1E-07: Real time heat load calculation software based on EPICS for Fermilab PIP-II CM tests
- Co-author in C2Po3A-01: Heat load measurements for the PIP-II pHB650 cryomodule
- Co-author in C3Po1A-02: Operational experience of the NML cryogenic plant at the FAST facility
- Brendan White (Thomas Jefferson National Accelerator Facility)
- Thilan Wijeratne (Jefferson Lab)
-
Daniel WILHELM
(Air Liquide)
- Co-author in C3Or3D-02: ITER LHe plants first tests results
- Julian Will
- Daniel Willems (Thales Cryogenics BV)
- Gerard Willering (CERN)
- Holger Willms (Forschungszentrum Juelich GmbH)
- Cody Wilson
-
Blaine Wissler
(Jefferson Lab)
- Author in C1Or4B-07: 2 Kelvin helium distribution system for the Electron Ion Collider’s 10 o’clock satellite refrigerator
- Author in C2Or4A-01: Design of satellite cryogenic plants for the Electron-Ion Collider at Brookhaven National Lab
- Co-author in C1Po1E-02: Assessment of the existing cryogenic central plant for the Electron Ion Collider cryogenic loads at Brookhaven National Laboratory
- Holger Witte (Brookhaven National Laboratory)
- Christian Wolf
- Mathew Wright (Michigan State University (MSU) - Facility for Rare Isotope Beams (FRIB))
- Zeyu Wu (Kyushu University)
- Wei Wu (Technical Institute of Physics and Chemistry,CAS)
-
Jihao Wu
- Co-author in C1Po1A-07: Design of a Laboratory-Scale Hydrogen Liquefier Cold Box for Low-Altitude Economy and Modular Deployment
- Co-author in C1Po3D-08: A review of the technology practice and future opportunities of liquid hydrogen centrifugal pumps
- Co-author in C1Po3D-09: Design and optimization of a Single-Phase heat exchanger for GM cryocooler coupled with parahydrogen conversion catalyst
- Co-author in C3Po1D-01: Simulation and experiment of a hydrogen pump with an integrated closed impeller
- Anbo Wu
-
Judy Wu
- Author in M2Or4B-02: Role of Ca diffusion in BaZrO3 nanorods/YBa2Cu3O7-x multilayer nanocomposite films
- Co-author in M1Po3A-03: The Effect of Calcium Doped Y-Ba-Cu-O (CaY123) Layer Thickness on the Flux Pinning in (CaY123 / BaZrO3 Doped Y-Ba-Cu-O) Multilayer Composite Films at a Wide Range of Temperatures and Applied Fields
- Sabine Wurmehl (Leibniz-Institut für Festkörper- und Werkstoffforschung Dresden e. V.)
- Agnieszka Wusatowska-Sarnek (Commonwealth Fusion Systems)
- Jianqiao Xiao (HInetics Inc)
- Hong-Mei Xiao (中国科学院理化技术研究所)
- Xiujuan Xie (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
-
Liancheng Xie
- Author in M2Po3B-02: Design and uncertainty analysis of cryogenic spectral emissivity measurement system
- Author in M2Po3B-05: Design and development of near field emissivity measuring device for superconducting materials
- Co-author in M2Po3B-03: Magnetoresistance analysis and calibration of zirconium oxynitride sensor for low-temperature thermometry
- Yiming Xing (Mechanical Engineering Department, FAMU-FSU College of Engineering, Florida State University, Tallahassee, FL 32310, USA National High Magnetic Field Laboratory, 1800 East Paul Dirac Drive, Tallahassee, FL 32310, USA)
-
Enchun Xing
(1 Key Laboratory of Technology on Space Energy Conversion, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China 2University of Chinese Academy of Sciences, Beijing 100190, China)
- Co-author in C1Po1B-02: 1 W@28.2 K micro single-stage coaxial pulse tube cryocooler operating at 52 Hz using precooling
- Co-author in C1Po1B-03: Influence of the structure of multi-bypass configuration regenerator on the performance of Pulse Tube Cryocooler
- Co-author in C1Po1B-04: A high frequency lightweight coaxial pulse tube cryocooler operating at 70 K
- Co-author in C1Po1B-07: Investigation on a thermal-coupled two-stage pulse tube cryocooler with multi-bypass working at 8 K
- Co-author in C1Po1B-08: Theoretical and experimental investigation of the effect of the phase shifter on the compressor of pulse tube cryocoolers
- Xingchen Xu (Fermi National Accelerator Lab)
-
Ting Xu
(Michigan State University)
- Author in M1Po3C-02: Structural analysis and field mapping test setup of the quadrupole triplet magnet for HRS project
- Author in M3Or1A-02: Design, fabrication, and testing of the quadrupole triplet magnet for the HRS project
- Co-author in C2Or2C-01: Analysis of quench safety and cryogenic energy recovery for FRIB High Transmission Beam Line magnets
- Nengneng Xu (Universirty of Connecticut)
- lei xu (Dalian Institute of Chemical Physics, Chinese Academy of Sciences)
- Minfeng Xu (GE HealthCare Technology and Innovation Center, Niskayuna, NY 12309, USA)
- Peng Xu (Brookhaven National Laboratory)
- Hiroki Yamada (Hydro Aluminium Japan KK)
- Kiyotaka Yamashita (NASA Glenn Research Center)
-
Biao Yang
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Author in C1Po1C-05: Study on the multiple cooling output characteristics of a gas-coupled high-frequency pulse tube cryocooler
- Author in C1Po3D-02: Study on Helium Adsorption Properties of Carbon Nanotubes in the Liquid Helium Temperature Range Based on the Monte Carlo Method
- Author in C1Po3D-03: Measurement of Apparent Thermal Conductivity of Insulation Materials at Cryogenic Temperatures
- Author in C3Po1D-08: Stress Distribution and Sealing Performance Analysis of Metal Sealing Joints in Liquid Hydrogen Pipelines
- Author in C3Po1D-09: Simulation Study on the Thermal Insulation Performance of Liquid Hydrogen Transport Pipelines
- Author in C3Po1F-04: Study on Cryogenic Fluid Circulation Loops for Efficient Heat Transfer of Small Cooling Capacities in the 4-20 K Temperature Range
- Zhixiang Yang (浙江大学)
-
Shirley Yang
- Author in C1Or4B-07: 2 Kelvin helium distribution system for the Electron Ion Collider’s 10 o’clock satellite refrigerator
- Author in C2Or4A-01: Design of satellite cryogenic plants for the Electron-Ion Collider at Brookhaven National Lab
- Co-author in C1Po1E-02: Assessment of the existing cryogenic central plant for the Electron Ion Collider cryogenic loads at Brookhaven National Laboratory
-
Bin Yang
(Technical Institute of Physics and Chemistry, Chinese Academy of Science)
- Author in C1Po1B-05: Numerical and experimental investigation of the compressor coupling characteristic of a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1B-03: Influence of the structure of multi-bypass configuration regenerator on the performance of Pulse Tube Cryocooler
- Co-author in C1Po1B-07: Investigation on a thermal-coupled two-stage pulse tube cryocooler with multi-bypass working at 8 K
- Co-author in C1Po1B-08: Theoretical and experimental investigation of the effect of the phase shifter on the compressor of pulse tube cryocoolers
- Co-author in C3Po1F-02: A 100 mW@4.0 K hybrid 4He Joule-Thomson cryocooler for space applications
- Shaoqi Yang
- Pengcheng Yang
- Zhongyuan Yao (TRIUMF)
- Chao Yao (nstitute of Electrical Engineering, Chinese Academy of Sciences)
- Charles Yarborough (GE Healthcare)
- Jialong Ye
- Teck Beng Desmond Yeo (GE HealthCare Technology and Innovation Center, Niskayuna, NY 12309, USA)
-
Hankil Yeom
(Korea Institute of Machinery & Materials)
- Co-author in C1Po1C-04: Development of a 4 K pulse-tube refrigerator (PTR) for quantum device cooling
- Co-author in C2Po3A-03: Thermal analysis of a HTS magnet with effects of magnet field
- Co-author in C3Po1E-02: Design of a Three-Stage Continuous Adiabatic Demagnetization Refrigerator for Ultra-Low Temperature Applications
- Junghyun Yoo (Institute for Basic Science)
- Junghyun Yoo (Institute for Basic Science)
-
Sungwoon Yoon
- Author in C2Po1E-07: Real time heat load calculation software based on EPICS for Fermilab PIP-II CM tests
- Co-author in C2Or4B-06: Fermilab PIP-II CDS & CM Cryogenic Controls System
- Co-author in C2Po1B-03: Design of the Tunnel Transfer line of PIP-II Cryogenic Distribution System
- Co-author in C2Po1B-04: PIP-II Cryogenic Distribution System – status and outlook
- Co-author in C2Po3A-01: Heat load measurements for the PIP-II pHB650 cryomodule
- Ian Young (Fermi National Accelerator Lab. (US))
- Isang Yu (korea aerospace research institute)
- W. Yu (Institute of Plasma Physics, Chinese Academy of Sciences, China)
- Qiang Yu
- Guoyao Yu
-
Kai Yuan
- Author in C2Po1F-03: RAMI analysis of 6kW helium refrigerator system
- Co-author in C2Po1E-08: Design and Development of EPICS-based 6kW Helium Cryogenic Control System
- Co-author in C2Po1F-01: Dynamic simulation and automatic control strategy design for the compressor system of 6kW Helium refrigerator
- Co-author in C2Po1F-02: Modeling and Dynamic Simulation for the Cold Box of 6kW Helium Refrigerator
- Dina Yuryev (Commonwealth Fusion Systems)
- Mark Zagarola
- Aurelien ZANCANARO (Air Liquide Advanced Technologies)
- Louis Zani
- Adam Zarcone (Brookhaven National Laboratory)
- Arezoo Zare (Washington State University)
- Yuhu Zhai (Princeton Plasma Physics Laboratory)
- xiaohua zhang
- Yuhong Zhang (中国科学院理化技术研究所)
-
Zhijian Zhang
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Author in C1Po1C-05: Study on the multiple cooling output characteristics of a gas-coupled high-frequency pulse tube cryocooler
- Author in C1Po3D-02: Study on Helium Adsorption Properties of Carbon Nanotubes in the Liquid Helium Temperature Range Based on the Monte Carlo Method
- Author in C1Po3D-03: Measurement of Apparent Thermal Conductivity of Insulation Materials at Cryogenic Temperatures
- Author in C3Po1D-08: Stress Distribution and Sealing Performance Analysis of Metal Sealing Joints in Liquid Hydrogen Pipelines
- Author in C3Po1D-09: Simulation Study on the Thermal Insulation Performance of Liquid Hydrogen Transport Pipelines
- Author in C3Po1F-04: Study on Cryogenic Fluid Circulation Loops for Efficient Heat Transfer of Small Cooling Capacities in the 4-20 K Temperature Range
- Jianqin Zhang (European Spallation Source ERIC)
-
Danlu Zhang
(Michigan State University)
- Author in M1Po3C-02: Structural analysis and field mapping test setup of the quadrupole triplet magnet for HRS project
- Author in M3Or1A-02: Design, fabrication, and testing of the quadrupole triplet magnet for the HRS project
- Co-author in C2Or2C-01: Analysis of quench safety and cryogenic energy recovery for FRIB High Transmission Beam Line magnets
-
Hongwei Zhang
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Author in C1Or4A-03: A compact, exchangeable and fast-cooling cryogenic system for HTS antennas
- Author in M1Po3D-02: Formation of thermal conductive hydrogel network in boron nitride/polyvinyl alcohol by directional freezing assisted salting-out method for cryogenic application
- Co-author in M2Po3B-03: Magnetoresistance analysis and calibration of zirconium oxynitride sensor for low-temperature thermometry
- Hanwei Zhang
- Qiyong Zhang
-
Qiyong Zhang
(Hefei Institutes of Physical Science, Chinese Academy of Sciences)
- Author in C2Po1A-07: Pre-design and efficiency analysis of electric generator brake cryogenic helium turbine expender
- Author in C2Po1F-03: RAMI analysis of 6kW helium refrigerator system
- Co-author in C2Po1E-08: Design and Development of EPICS-based 6kW Helium Cryogenic Control System
- Co-author in C2Po1F-01: Dynamic simulation and automatic control strategy design for the compressor system of 6kW Helium refrigerator
- Co-author in C2Po1F-02: Modeling and Dynamic Simulation for the Cold Box of 6kW Helium Refrigerator
-
Xianhao Zhang
- Author in C1Po3A-07: Lumped Modeling of Cooling and Electric Devices in Aircraft
- Author in M3Or1A-03: Simulations of a modified CLIQ System using Split MgB2 Coils and Simultaneous Joule Heating Using a Lumped Parameter Model
- Author in M3Or3A-05: [Invited] A high power two-pole quick connect junction between lightweight cryoresistive and superconducting aerospace power transmission cables
- Co-author in M3Or2A-04: Investigating the impact of tensile stress-induced/annealing-affected dislocation and grain boundary on the performance of High Purity Aluminum Wire by EBSD.
- Co-author in M3Or3A-03: [Invited] Lightweight cryoresistive and superconducting aerospace power transmission cables: experiments and theory
- Chuanjia ZHANG (Air Liquide Cryogenic China Science)
- Guomin Zhang (Institute of Electrical Engineering,Chinese Academy of Sciences)
- jincheng Zhang (中国科学院等离子体物理研究所)
- yue zhang (University of Science and Technology of China)
- Zhaoxue Zhang
- Meimei Zhang (Technical Institute of Physics and Chemistry,CAS)
- Hao Zhang (Technical Institute of Physics and Chemistry, CAS)
- Hengcheng Zhang (Technical Institute of Physics and Chemistry, Chinese Academy o)
- Xianping Zhang
- Qiyong Zhang (Institute of Plasma Physics, Hefei)
- Kun Zhang
-
Miguang Zhao
(Technical Institute of Physics and Chemistry, Chinese Academy of Science)
- Author in C1Po1B-10: Research on the Influence of Average Pressure on the Thermodynamic Cycle and Performance of Pulse Tube Cryocoolers
- Author in C1Po1D-04: Design and performance evaluation of a closed-cycle ³He sorption cooler
- Co-author in C1Po1B-04: A high frequency lightweight coaxial pulse tube cryocooler operating at 70 K
- Co-author in C1Po1B-05: Numerical and experimental investigation of the compressor coupling characteristic of a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
- Co-author in C1Po1B-07: Investigation on a thermal-coupled two-stage pulse tube cryocooler with multi-bypass working at 8 K
- Co-author in C1Po1B-08: Theoretical and experimental investigation of the effect of the phase shifter on the compressor of pulse tube cryocoolers
- Co-author in C1Po1D-03: Simulation and experimental study of ultra-low temperature heat transfer characteristics of continuous heat exchangers in the dilution refrigerator
- Co-author in C3Po1E-04: Design and testing of a tin superconducting heat switch for adiabatic demagnetization refrigerators
- Wenping Zhao (RTX Technologies Research Center)
- Peng Zhao
- Junting Zhao
- Shubao Zhao (中国科学院理化技术研究所)
- Yuqiang Zhao
- Bo Zhao (Institution of Refrigeration and Cryogenics, Zhejiang University, Hangzhou 310027, China)
- Shen Zhao (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
-
Maowen Zheng
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Co-author in C1Po1D-02: Design and experiments of 1 K superfluid 4He system for precooling the ultra-low temperature refrigerators
- Co-author in C1Po1D-03: Simulation and experimental study of ultra-low temperature heat transfer characteristics of continuous heat exchangers in the dilution refrigerator
- Hengkang Zheng (Facility for Rare Isotope Beams, Michigan State University, East Lansing, MI 48824, USA)
- Jim Zheng (University at Buffalo)
-
Xiaoqin Zhi
(浙江大学)
- Co-author in C1Po3C-06: Experimental investigation of CO2 desublimation characteristics in flue gas on horizontal copper plate influenced by surface temperature and CO2 concentration
- Co-author in C1Po3D-04: Transient Heat Transfer in Superfluid Helium from Localized Heating Spots on Spherical Surfaces
- Co-author in C3Or3C-03: Experimental research on a highly compact miniature coaxial pulse tube cryocooler at 80 K
- Zhimin Zhong (NASA Glenn Research Center)
- Chao Zhou (Institute of Plasma Physics, Chinese Academy of Sciences, China)
- Xiao-Dong Zhou (Universirty of Connecticut)
- Zhengrong Zhou
-
Zhiwei Zhou
- Author in C2Po1E-03: Digital twin for the CRAFT helium cryogenic plant
- Author in C2Po1E-08: Design and Development of EPICS-based 6kW Helium Cryogenic Control System
- Author in C2Po1F-01: Dynamic simulation and automatic control strategy design for the compressor system of 6kW Helium refrigerator
- Author in C2Po1F-03: RAMI analysis of 6kW helium refrigerator system
- Co-author in C2Po1F-02: Modeling and Dynamic Simulation for the Cold Box of 6kW Helium Refrigerator
- Yuan Zhou (Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)
- Han ZHOU (中国科学院理化技术研究所)
- Zhengrong Zhou
- Shaolong Zhu
-
Shaolong Zhu
(Zhejiang University)
- Author in C1Or4C-07: Experimental Study on Thermodynamic Performance and Lossless Storage of a Vehicle-Mounted Horizontal LH2 Tank
- Co-author in C2Po1D-05: Test platforms for ortho-para hydrogen conversion at cryogenic conditions
- Co-author in C2Po1D-06: Design and Optimization of Efficient Catalyst-filled Spiral Wound Heat Exchangers for Large-Scale Hydrogen Liquefaction Systems
- Zhigang Zhu
- Shaolong Zhu (Zhejiang University)
- Shaolong Zhu (Zhejiang University, CN)
- Ming Zhuang (Institute of Plasma Physics, Chinese Academy of Sciences)
- Alex Zlobin
- Jiarun Zou (Technical Institute of Physics and Chemistry CAS)
-
jiansheng zuo
(Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China,)
- Author in C1Po3A-01: Optimization design of the brake impeller for cryogenic hydrogen turbine expanders
- Author in C1Po3A-08: Dynamic Analysis and Optimization of Aerostatic Bearing-Rotor Systems in Cryogenic Turbo Expanders
- Author in C1Po3D-01: Design and performance analysis: characteristics of multi-dimension helium turbine brake wheels based on CFX simulation
- Co-author in C1Po3B-03: Numerical Simulation of the Protective Effectiveness of Bund Walls and the Impact of Key Parameters in Accidental Liquid Hydrogen Releases
- Co-author in C2Po1A-04: Optimizing nozzle-impeller coupling to enhance efficiency in hydrogen Turbo-Expanders
- Christof Zwyssig (Celeroton AG)
- 国鹏 王
-
敏 高
(中国科学院大学理化技术研究所)
- Co-author in C1Po1B-02: 1 W@28.2 K micro single-stage coaxial pulse tube cryocooler operating at 52 Hz using precooling
- Co-author in C1Po1B-03: Influence of the structure of multi-bypass configuration regenerator on the performance of Pulse Tube Cryocooler
- Co-author in C1Po1B-06: Performance simulation and model verification for a 20K thermal-coupled two-stage high-frequency pulse tube cryocooler
