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10:15
4LP2-01 Theoretical Expressions of Output Errors in Two Types of Superconducting Level Sensors
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Kazuhiro Kajikawa
(Kyushu University)
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10:16
4LP2-02 Strain measurements with Fiber Bragg Grating sensors in the short models of the HiLumi LHC Low-Beta Quadrupole Magnet MQXF
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Antonella Chiuchiolo
(CERN)
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10:17
4LP2-03 A three-dimensional measurement system for HTS magnetic levitation bearings
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Li Wanjie
(Institute of Electrical Engineering, Chinese Academy of Sciences)
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10:18
4LP2-04 Determination of the N exponent of 2G HTS tapes from V-I curves using a thermally stabilized fast pulsed system
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Rubens de Andrade Junior
(Universidade Federal do Rio de Janeiro)
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10:19
4LP2-05 Instrumentation for laboratorial high current tests of 3-phase Cold Dielectric HTS Power Cable
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Marcelo Neves
(LMDS / UFRRJ (Universidade Federal Rural do Rio de Janeiro))
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10:20
4LP2-06 Novel rotating coil setup for definition of the magnetic field quality for XFEL magnets
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Yury Klimchenko
(JSC «D.V.Efremov Institute of Electrophysical Apparatus» NIIEFA)
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10:21
4LP2-07 A Method for Monitoring Unbalanced Three-Phase HTS Cable Systems via Time-Frequency Domain Reflectometry
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Geon Seok Lee
(Yonsei University)
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10:22
4LP2-08 Variable Temperature Insert for Measurement of Critical Current in HT Superconductors
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David Richter
(CERN)
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10:23
4LP2-09 Conduction Cooled HTS Current Leads for the SIS100 Corrector Magnets
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Alexander Bleile
(GSI)
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10:24
4LP2-10 Design of YBCO HTS current leads for high field medical cyclotron application
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Kaizhong Ding
(institute of plasma physics, Chinese Academy of Sciences)
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10:25
4LP2-11 Experimental Test of a Multistage Cooled Current Lead for Superconducting High Current DC Applications, designed for an Operating Current of 20 kA
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Mathias Noe
(Chair for Energy Systems and Energy Management at University of Kaiserslautern)
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10:26
4LP2-12 Design, Testing and Commissioning of 25.4 kA HTS Current Leads
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Michael Boersch
(WEKA AG)
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10:27
4LP2-13 Cylindrical geometry flux-pump dynamos
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Zhenan Jiang
(Victoria University of Wellington)
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10:28
4LP2-14 Cryogenic Electrical Insulation Characteristics of Solid Insulator for the DC HTS Cable
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Haejong Kim
(KERI)
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10:29
4LP2-15 Discharge mechanisms in liquid nitrogen – breakdown field strength of gaseous nitrogen
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Nicholas Hill
(TU Braunschweig)
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10:30
4LP2-16 Keeping Cool Under Pressure: Dielectric Strength of Solid Insulation in Boiling Liquid Nitrogen
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Zhiyang Jin
(University of Canterbury)
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10:31
4LP2-17 The Trap Distribution And Dielectric Failure Strength Of Polyamide Film Under DC And Repetitive Pulse Voltage Combination
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Mingyang Wang
(Tianjin University)
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10:32
4LP2-18 Enhanced Dielectric Breakdown Strength of Cryogenic Gas Mixtures to be Used in Superconducting Power Devices
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Sastry Pamidi
(Center for Advanced Power Systems)
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10:33
4LP2-21 Breakdown and Partial Discharge Characteristics of Transformer Board and Insulating Paper Materials in Liquid Nitrogen
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Christof Humpert
(TH Köln (University of Applied Sciences))
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10:34
4LP2-22 Influence of Pressure on Breakdown Characteristics of Liquid Nitrogen in Non-uniform Electric Fields
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Christof Humpert
(TH Köln (University of Applied Sciences))
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10:35
4LP2-23 Arc Energy Evaluation In Liquid Nitrogen
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Muhammad Junaid
(State Key Laboratory of Electrical Insulation and Power Equipment, School of Electrical Engineering, Xi'an Jiaotong University)
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10:36
4LP2-24 Trap Distribution and Dielectric Breakdown of Irradiated Polyimide Film under Combined DC and Pulse Voltage in LN2
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Boxue Du
(Tianjin University)
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10:37
4LP2-25 Tree Growth Characteristics of Epoxy Resin in LN2 under DC overlapped pulse voltage
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Boxue Du
(Tianjin University)
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10:38
4LP2-26 Partial Discharge and Breakdown Behavior of Syntactic Foams at 77 K
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Stefan Seibel
(RWTH Aachen University)
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10:39
4LP2-27 Analysis of a superconducting arc-induction type DC circuit breaker for the stability betterment in the direct current system
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Sangyong Park
(CHOSUN UNIVERSITY)
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10:40
4LP2-27 Cryogenic considerations for cooling superconducting links and application to the high luminosity upgrade of the Large Hadron Collider (LHC)
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Daniel Berkowitz Zamora
(CERN)