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INFIERI 2025

Europe/Zurich
University of Pisa and INFN Sezione di Pisa

University of Pisa and INFN Sezione di Pisa
Description

Registrations are open!

Early registration (reduced fee) deadline: June 30th

General registration deadline: July 15th

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(WARNING:  Be aware of online scammers claiming to make accommodation reservations on your behalf. Please ignore such emails and do not reply, click any links, or provide your credit card information. We have NOT commissioned any travel agencies to make arrangements for participants on behalf of the conference organizers.)

Welcome to the 8th Edition of INFIERI:
INtelligent signal processing for FrontIEr Research and Industry

We are excited to announce that the 8th edition of the INFIERI Summer School will take place in Pisa, Italy, from September 1 to 13, 2025. Hosted by the University of Pisa and INFN Sezione di Pisa, with the collaboration of Scuola Normale Superiore, the European Gravitational Observatory, and the University of Siena, this edition promises to continue the legacy of excellence that has defined the INFIERI series.

The INFIERI Summer School offers a unique two-week program designed for M.Sc. students, Ph.D. candidates, postdocs, and early-career researchers. The 2025 edition will maintain the school's tradition of cross-disciplinarity, covering the full signal processing chain critical for developing cutting-edge instruments in areas such as particle physics, astrophysics, nanotechnology, and biomedical engineering.

The program includes expert lectures, keynote talks, and hands-on laboratory sessions, where participants will work closely with leading scientists and industry professionals. The in-person format fosters essential interactions and collaborations, ensuring a rich educational experience. Following the success of the 2023 edition, highly skilled undergraduate students will also be invited to participate based on their academic achievements.

Join us in Pisa for an unparalleled opportunity to advance your knowledge and skills in signal processing and instrumentation.

Lectures & Hands-on Labs on Cross-disciplinary, Cutting-edge Research Fields, and High Technologies Development:

  • From Astrophysics (Gravitational Waves, HelioPhysics and Sun Exploration) and Particle Physics (Beyond Higgs/Future accelerators & Quantum Experiments) to new paradigms in Nuclear Fission and Fusion.
  • From Advanced semiconductors to Quantum sensing, Nano-technologies,  Nano-Biology and Nano-Medicine.
  • From Big Data Transfer, beyond-Moore’s-Law High Performance Computing to AI and Quantum Technologies in Science and Industry.

Target audience: M.Sc., Ph.D., postdoc-level physicists and engineers.

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  • Monday 1 September
    • OPENING DAY

      The Academia, Advanced Research Laboratories and Industrial Firms that will contribute to the school in the Pisa area, together with the Host Institutions: University of Pisa and INFN sezione di Pisa will be presented in this session,
      The session will also include a brief presentation of the School series Objectives.

      Convener: Andrea Rizzi (Universita & INFN Pisa (IT))

      The contributing Academia, Advanced Research Laboratories and Industrial Firms that will contribute to the school in the Pisa area, together with the Host Institutions: University of Pisa and INFN sezione di Pisa will be presented in this session,
      The session will also include a brief presentation of the School series Objectives.

    • Lunch time
    • INTRODUCTORY PLENARY SESSION: PRESENTATION of HANDS-ON LABs

      This. plenary session will give a review of all the Hands-on Labs organised for this school edition; each Lab will be presented by one of the Lab organisers.

  • Tuesday 2 September
    • INTRODUCTORY VISION ON THE 4 THEORETICAL PILARS of this SCHOOL PROGRAM

      THE TOPICS COVERED IN THIS SCHOOL SERIES ARE BASED ON 4 THEORETICAL PILARS:
      1) ASTRONOMY/ASTROPHYSICS & COSMOLOGY
      2) PARTICLE PHYSICS
      3) QUANTUM PHYSICS
      4) PLASMA PHYSICS

      THE THEORETICAL LECTURES ON EACH OF THESE 4 TOPICS ARE GIVEN BY EXPERTS IN THE FIELD. THEY WILL INTRODUCE THESE THEORETICAL FRAMEWORKS, CONCENTRATING ON THE MAIN ITEMS, THIS SCHOOL EDITION WILL COVERED.

      The theoretical introductions are completed by dedicated masterclasses (i.e. Hands-on theoretical Labs) for the non-expert students in the domain covered by those introductory lectures.

      Today: The Lectures and Keynote will be dedicated to 3 ofthe 4 pilars of this school program: Astro & Cosmology, Particle Physics and Plasma Physics  

      The introductory vision talk on the fourth pilar, i.e. Quantum Mechanics will be given as a keynote the day after.

      • 1
        INTRODUCTORY VISION to ASTRONOMY/ASTROPHYSICS & COSMOLOGY

        REFERRING TO GALILEO GALILEI, BUT ALSO TO TWO OF THE MOST IMPORTANT TOPICS NOWADAYS IN THE ASTRO/COSMO FIELD, THIS INFIERI SCHOOL EDITION WILL CONCENTRATE ON GRAVITATIONAL WAVES AND SOLAR PHYSICS (=> Dark matter, dark energy, black holes, gravitational waves, Gravity, Heliophysics..), with an introduction by two lecturers:

        • a) INTRODUCTORY VISION TALK ON GRAVITATIONAL WAVES

          Abstract: I will start with a brief introduction of gravitational waves and their main properties. Next we will look at the astrophysical sources of gravitational waves in context of current and future gravitational wave detectors.
          Finally we will look at the detection of gravitational waves and what we can learn with gravitational wav observations.

          Speaker: Stanislav BABAK, Director of Research at CNRS (FR), did his PhD at Cardiff University and then briefly worked as a post-doc in GEO600 group. Then, in 2001, he became a member of LIGO collaboration (currently he is a member of VIRGO). Shortly after moving to Albert Einstein Institute in Potsdam, he has started to work on LISA project (2005), currently he is leading LISA data analysis development in Europe. In 2011, he joined European Pulsar Timing Array collaboration.

          Speaker: Stanislav BABAK (Astroparticle & Cosmology (APC)-University Paris-Cite, FR)
        • b) INTRODUCTORY VISION TALK ON HELIOPHYSICS

          Speaker: Rolf SCHLICHENMAIER held a PhD in 1997, from Ludwig-Maximilian-University in Munich (GE) on “Magnetic flux tubes evolving in sunspots. A model for the Evershed effect and the penumbral fine structure” (supervisors: Prof. Haerendel, MPI for extraterrestrical Physics and Dr. H.U. Schmidt, MPI for Astrophysics). Since 1997 he is a Scientist at Leibniz-Institute for Solar Physics (KIS) in Freiburg. Current research/job focus: Structure and evolution of sunspots.
          Area of expertise: Spectropolarimetry, magnetohydrodynamics
          Area of interests: Solar physics, solar dynamo, flux emergence, magnetic coupling throughout the solar atmosphere
          He is the coordinator of the SOLARNET Consortium (https://www.solarnet-project.eu) including EU countries as well as Japan and Russia. SOLARNET aims to bring together and integrate the major European research infrastructures in the field of high-resolution solar physics, in order to promote coordinated research and development.
          He is Chair of the EST Science Advisory Group; The European Solar Telescope (EST) is a project aimed at studying the magnetic connectivity of the solar atmosphere, from the deep photosphere to the upper chromosphere. Its design combines the knowledge and expertise gathered by the EU solar physics community on state-of-the-art solar telescopes operating in visible and near-infrared wavelengths: the Swedish 1m Solar Telescope, the German Vacuum Tower Telescope and GREGOR, the French Télescope Héliographique pour l’Étude du Magnétisme et des Instabilités Solaires, and the Dutch Open Telescope.

          Speaker: Rolf SCHLICHENMAIER (Leibniz-Institut für Sonnenphysik (KIS), Freiburg, DE)
      • 10:15
        COFFEE/TEA BREAK
      • 2
        INTRODUCTORY VISION to PARTICLE PHYSICS

        PARTICLE PHYSICS IS AT AN EXCITING TIME, ENTERING IN TERRA INCOGNITA:
        - HIGGS, BEYOND or BEHIND & WHAT"s ELSE?
        - WHAT FUTURE DIRECTIONS IN HIGH ENERGY PHYSICS?
        - WHAT's NEXT??
        => THE THEORETICIANS' POINTS of VIEW:
        - MICHELANGELO MANGANO (TH Division, CERN, CH)
        - RICCARDO RATTAZZI (EPFL, LAUSANNE, CH)

        Michelangelo MANGANO is senior scientist in the Theoretical Physics Department of CERN, which he joined in 1995 following his studies in Pisa and research positions at Princeton University, Fermilab and INFN. At CERN Mangano is in charge of the LHC Physics Centre (which coordinates the joint experimental and theoretical activities in the interpretation of the data from the Large Hadron Collider), and has been coordinating the studies of the physics potential of the next-generation collider, the Future Circular Collider.

        Speakers: Michelangelo MANGANO (TH Division, CERN, CH), Riccardo RATTAZZI (tbc) (EPFL - Ecole Polytechnique Federale Lausanne, CH)
    • Lunch time
    • Parallel session on Hands-on Lab
    • Coffee break
    • KEYNOTE 1: THE CHALLENGES OF QUANTUM COMPUTING: SCIENCE, TECHNOLOGY, ENERGETICS and. ECONOMICS

      Abstract: Olivier Ezratty will present the state of the art of quantum computing across various qubit modalities and algorithms classes, and how the academic and industry vendor ecosystem is planning to build utility-grade fault-tolerant quantum computers in the next decades. He will frame the wealth and interactions between the various scientific, engineering, and economical challenges ahead to deliver on these promises. It relates to scaling qubit quantity and quality, improving manufacturing practices, developing efficient quantum error correction techniques, creating quantum computers interconnect solutions, optimizing energetic footprints, designing efficient algorithms and also making sure these systems become affordable for their users.

      Speaker: Olivier EZRATTY is a freelance quantum engineer, author, trainer, teacher, and researcher, mostly known for “Understanding Quantum Technologies”, his comprehensive open-source book on quantum technologies (September 2021, 2022, 2023 and 2024, 1,554 pages). He is a teacher and lecturer on quantum and classical technologies at various top-level Engineering schools and Universities in France such as: EPITA, CentraleSupelec, Ecole Normale Supérieure Paris-Saclay, and other Universities. He works for a diverse set of government institutions and industry organizations, as a referent expert for Bpifrance, Agence Nationale de la Recherche (France) (ANR), the European Commission and venture capital funds. He is also one of the cofounders of the Quantum Energy Initiative. He has an Msc in Computer Science from CentraleSupelec.

  • Wednesday 3 September
    • FUNDAMENTAL RESEARCH & ADVANCED HIGH TECH

      THREE ADVANCED HIGH TECH TOPICS IMPACTING THE SIGNAL PROCESSING AT THE FRONT-END OF THE INSTRUMENTS ARE PRESENTED IN THOSE LECTURES:
      1) INTRODUCTION TO SUPRACONDUCTIVITY AND ITS INCREASING ROLE AND APPLICATIONS
      2) QUANTUM SENSING: WHICH ALLOWS FOR EXTREMELY PRECISE MEASUREMENTS. IT TRANSLATES INTO QUANTUM SENSING TECHNOLOGIES WHICH HAVE. A BROAD RANGE OF APPLICATIONS.
      3) ADVANCES IN SENSOR TECHNOLOGIES AND VERY DEEP SUB-MICROELECTRONICS TO DETERMINE WITH THE HIGHEST PRECISION, SPACE POSITION AND TIME (4D SPACE) PLUS IN SOME CASES ENERGY (5D SPACE).

      • 3
        DESIGN and OPTIMIZATION OF ACCELERATOR MAGNETS

        Abstract: For the LHC magnets, the coherence between beam-physics requirements, magnet design, and magnetic measurements has been well established. This is far less evident in future accelerator projects. Hysteresis and eddy currents in iron-dominated magnets affect accelerator performance during fast field ramps to gain circulating beam time or when suppressing demagnetization cycles to save energy.

        We also review the challenges of the next generation of high-field superconducting magnets that will require coupled electromagnetic, mechanical, thermal, and electric simulations from the onset of the design process. We go through the different design steps and the required tools for numerical field computation and optimization. In simulating transient effects in quenching superconducting magnets, we are confronted with the coupling of physical subsystems and extreme nonlinearities and uncertainties in the material parameters.

        Speaker: Stephan Russenschuck received the Dipl.-Ing and Dr.-Ing. degrees in electrical engineering from the Technical University Darmstadt, Germany, in 1986 and 1990, respectively. In 2000, he was recognized as a University Lecturer (Habilitation) for Theory of Electromagnetic Fields at the Technical University of Vienna, Austria.

        Stephan holds the position of Principal Applied Physicist in the Accelerator Technology (TE) Department of the European Organization for Nuclear Research, CERN, Geneva, Switzerland. During the construction period of the LHC, Stephan was responsible for the electromagnetic design of the LHC main dipole magnets and later for the magnet polarities and the electrical quality assurance of the LHC machine.

        Stephan’s research interests are mathematical optimization and field simulation supporting magnet design, magnetic measurements, and accelerator operation. Stephan is the author of the numerical field-computation program ROXIE and the author of the new book “Field simulation for accelerator magnets,” published 2025 at Wiley-VCH.

        Speaker: Stephan RUSSENSCHUK (TE Department, CERN, CH)
      • 4
        QUANTUM SENSING TECH
        Speaker: Steven WORM (Honorarprofessor, Humboldt Universität Berlin, Department of Physics Head of Astroparticle Detector R&D @ DESY)
      • 10:20
        COFFEE.TEA BREAK
      • 5
        TRACKING PARTICLES: BREAKING SPACExTIME LIMITS

        4D/5D Revolution in sensors and associated frontend electronics

        • a) TRACKING PARTICLES in SPACExTIME (4D)

          Speaker: Daniela BORTOLETTO (Physics Department, Oxford, UK)

        • b) TRACKING PARTICLES in 5D: SPACExTIMExENERGY, NEW DEVELOPMENTS on CALORIMETRY

          Speaker: Philipp ROLOFF (EP Department, CERN, CH)

        • c) QUANTUM-DOT: A POSSIBLE NEWCOMER IN CALORIMETRY?

          SPEAKER: Jean Louis FAURE (CEA-Saclay, FR and CMS-LHC)

          Abstract: This lecture will review the Quantum-dot properties in terms of light absorption, light emission, timing and the related benefits for calorimeter detector technology based on crystals associated with Quantum dots. The optimization choices will be as well discussed.

          Speaker: Jean Louis Faure, Masters in Math and Physics and Diploma in General Relativity and Quantum Field Theory (1972). Member of the Nuclear Physics Department at Saclay (1972-1980), working at ALS, Saturne accelerator and PSI, with a break in 1973-1974 to work in the Plasma Physics Lab at Ecole Polytechnique (Paris). From 1980 to 1986, led the Saclay team in the PS170 experiment at CERN, contributing to the Magnet design, CerenkovGas detector construction and DAQ plus Analysis software.
          From 1987 to1991, Saclay team leader in CPLEAR experiment at CERN, with contribution to the design and construction of the central drift chambers, electronic readout and associated Trigger and DAQ system. From 1992 to 1998, Saclay group leader at the CMS experiment at LHC with contribution to the LOI and TDR, the R&D on Crystal e.m. calorimetry (also in Crystal Clear Collaboration); Project manager of the e.m. barrel calorimeter made of PbWO4 crystal read out by APD. Member of the ECAL Technical Coordination Board. Since 1998, member of CMS-CERN as CMS-Emeritus, involved in number of internal reviews and consulting, member of the ATLAS P2UG as Calorimeter expert.

    • Lunch time
    • Parallel session on Hands-on Lab
    • Coffee break
    • KEYNOTE 2: INTELLIGENCE ON DETECTORS: THE HEP QUANTUM EXPERIMENTS AS an EXAMPLE CASE.

      This lecture will present the revolution of quantum technology on HEP experiments and how it introduces intelligence on the detectors in Particle Physics experiments with some show cases.

      • 6
        QUANTUM OBSERVABLES in PARTICLE PHYSICS
        Speaker: Fabio MALTONI (Universite Catholique de Louvain (UCL) (BE) and Università di Bologna)
      • 7
        QUANTUM HEP EXPERIMENTS
        Speaker: Steven WORM (Deutsches Elektronen-Synchrotron and Humboldt Universität Berlin (DE))
  • Thursday 4 September
    • INTELLIGENCE on DETECTORS, THE HEP CASE: PREPARING THE HEP FUTURE

      The YEAR 2025 IS A NEW IMPORTANT YEAR on the PATH TO FINAL DECISIONS ABOUT THE NEXT GENERATION HEP MACHINE(S) TO BE BUILT OVER THE WORLD.
      THIS SESSION WILL REVIEW THE. PROJECTS, i.e. THE LEPTON HIGGS FACTORY(IES), A 100 TEV HADRON COLLIDER, A 3-10 TeV MUON COLLIDER, from the PHYSICS and DETECTORS VIEWPOINT & WITH A FOCUS ON THE INTERPLAY BETWEEN THE DIFFERENT PROJECTS.

      • 8
        OVERVIEW of the PROJECTS for THE FUTURE of HEP, WORLDWIDE
        Speaker: Frank ZIMMERMANN (Beams Department, Accelerators and Beam Physics group , Lepton Accelerators and Facilities section, BE-ABP-LAF, CERN, CH)
      • 9
        MODEL-BASED SYSTEMS ENGINEERING for the NEXT GENERATION of NORMAL and SUPERCONDUCTING ACCELERATOR MAGNETS

        SPEAKER: S. Russenschuck holds the role of principal apply physicist at the Technology Department TE at CERN (CH). He is the leader of the test and magnetic measurement section in the magnet group.

        ABSTRACT: We present Model-Based Systems Engineering (MBSE) as a methodology that enables data-driven modeling and traceable design workflows of magnets and field transducers.
        The aim is to create models updated by magnetic measurements, which allow the extrapolation of performance parameters regarding different powering cycles, manufacturing defects, and varying material parameters. To enable MBSE processes, we must place six “columns” on a common foundation: the physical objects (magnets and field transducers), data layers (numerical models and measured data), and software tools for design and analysis.
        Data-driven models (hybrid twins) contain the physical description of a nonlinear dynamical system, the simulated system's response and observation functions, and a disturbance model derived from measurements.

        Speaker: Stephan RUSSENSCHUCK (TE Department, CERN, CH)
      • 10
        THE FCC PROJECT for FUTURE of HEP at CERN
        Speaker: Guy WILKINSON (tbc) (University of Oxford (GB))
      • 10:45
        COFFEE/TEA BREAK
      • 11
        A 100 TeV HADRONIC COLLIDER: THE DETECTOR CHALLENGES TO FACE THE NEW PHYSICS REACHES
        Speaker: Werner RIEGLER (EP Department, CERN, CH)
      • 12
        THE CePC/SppC for FUTURE of HEP in CHINA
        Speaker: Joao GUIMARAES da COSTA (IHEP and CAS, CHINA)
      • 13
        A HIGH ENERGY, 3-10 TEV MUON COLLIDER
        Speaker: Isobel OJALVO (Princeton University, USA)
    • Lunch time
    • Parallel session on Hands-on Lab
    • Coffee break
    • KEYNOTE 3: TOWARDS THE FUTURE OF PARTICLE PHYSICS

      Looking to the Future of HEP, as a unique test bench for fundamental research on elementary constituents of the matter and of the Universe and for the development of a large scope of cutting-edge technologies for fundamental and applied research as well as for the Society.

      This keynote will extend the scope of the lectures given on the plenary morning session of September 4. It will include the participation of some authorities of the Particle Physics international community..
      The keynote will be opened to a larger audience.

      SPEAKERS:
      - Hitoshi MURAYAMA (LBL, USA) Professor, Former Director, Kavli Institute for the Physics and Mathematics of the Universe (IPMU), University of Tokyo, currently Chair of the P5, Particle Physics Project Prioritization Panel (USA).
      Hitoshi Murayama is a well-known theoretical particle physicist who works broadly, even on astrophysics, cosmology, and condensed matter physics. He has been a professor in the University of California, Berkeley, since 2000, and is also the founding director of the Kavli Institute for the Physics and Mathematics of the Universe (Kavli IPMU) at the University of Tokyo, serving from 2007 to 2018. Born in Japan, lived in Germany for four years and in the US for 21 years, served on advisory committees around the world, he is a multicultural global denizen. In October 2014, he was invited to give a speech at the United Nations headquarters in New York about how science unites people and brings peace. He received the Yukawa Commemoration Prize in Theoretical Physics and is a Fellow of the American Physical Society and the American Academy of Arts and Sciences.
      - Roberto TENCHINI, INFN-Pisa and President of INFN Commissione Scientifica Nazionale 1, Fisica delle Particelle, INFN-CNS1
      - Yifang WANG, Director of the Institute of High Energy Physics, Chinese Academy of Sciences (CAS) from 2011 to 2024. Wang has been elected member of the CAS, foreign member of the United States National Academy of Sciences,foreign member of the Russian Academy of Sciences and Academician of the Academy of Sciences of Developing Countries.

  • Friday 5 September
    • THE APPLIED PHYSICS DAY: RENEWABLE ENERGIES, THE NUCLEAR ENERGY CASE

      This session will introduce this active research field and stress the main R&D developments on both the Nuclear Fission and Nuclear Fusion applications on this field. It will also show how these research activities are benefitting from European and or international Research Laboratories such as MYRRHA and ITER.
      It will briefly also introduce in those lectures the broad field of applications beyond the use as Energy source.

      The industrial aspects will be developed in the Symposium on High Tech and Fundamental Science.
      Several Hands on Lab are foreseen for this important overall topic.

      Convener: Cinzia DA VIA (Manchester University (UK) and SUNY-STONYBROOK, NY, USA)

      Nuclear Energies: Challenges, Projects, New Paradigm

      Interplay with fundam. Science

      • 14
        GLACIERS and CLIMATE CHANGE: THE LONG- and SHORT-TERM PERSPECTIVES

        Speaker: Prof. Matteo SPAGNOLO is a glaciologist at the University of Aberdeen and the director of the Scottish Alliance for Geoscience, Environment and Society (SAGES). He obtained a BSc in Natural Sciences at the University of Pisa (Italy), an MSc in GIS and Remote Sensing at the IAO in Firenze (Italy), a Geology PhD at the University of Genova (Italy), before moving to the UK in 2007. Matteo applies various field, Geographic Information System and remote sensing techniques to the study of glacial landforms and glacier response to climate and other forcing (e.g. volcanism). He has worked in alpine and subglacial environments, from the Andes to the Arctic, looking at land surface, subsurface and seabed evidence of past and present-day glacier dynamics. His current research includes the history of glaciations, the interaction between volcanoes and glaciers, the recent evolution of glaciers in the Himalayas in response to climate, and glaciers as water resources under current/future scenarios of global warming.

        Abstract: Climate represents the main driver controlling the growth and demise of Earth’s ice masses, which in turn play a major role in many physical and biological processes, including sea level, ocean currents, ecosystems, and climate itself, not to mention human activities. Thus, it is no surprise that shrinking and disappearing glaciers are often referred to as amongst the most dramatic evidence of recent, increased warming. Climate, and hence glaciers, have changed often in historical and geological times. The past evolution of glaciers, and history of glaciations, can therefore be used as a way to decipher past climate changes, essential to contextualise current climatic trends and scenarios, and to refine future predictions. In this talk, Prof. Matteo Spagnolo will use evidence of past glaciations (landforms and sediments), ice cores and other geological climate proxies to present a fascinating “recent” (hundred years timescale) and geological (million years timescale) overview of what we know about the Earth’s climate history.

        Speaker: Matteo SPAGNOLO (University of Aberdeen)
      • 15
        RESEARCH and DEVELOPMENTS ON NUCLEAR FISSION; ALTERNATIVES TOWARDS A NEW WAY TO USE NUCLEAR FISSION FOR ENERGY APPLICATIONS

        INTRODUCTION TO NUCLEAR FISSION ENERGY and MYRRHA A MULTIPURPOSE ACCELERATOR-DRIVEN SYSTEM FOR R&D PRE-DESIGN STUDY COMPLETION

        MYRRHA is a project presently under development of a research reactor aiming to demonstrate the feasibility of the Accelerator Driven System (ADS) and the lead-cooled fast reactor concepts, with various research applications from spent-fuel irradiation to material irradiation testing. A linear accelerator is under development to provide a beam of fast proton that hits a spallation target, producing neutrons. These neutrons are necessary to keep the nuclear reactor running when operated in sub-critical mode, but to increase its versatility the reactor is also designed to operate in critical mode with fast neutron and thermal neutron zones.

        MYRRHA is the world’s first large scale Accelerator Driven System project at power levels scalable to industrial systems. MYRRHA offers unparalleled research opportunities in spent nuclear fuel, nuclear medicine and fundamental and applied physics. The MYRRHA consortium welcomes international partners and investors.(https://myrrha.be).

        SPEAKER: Hamid Air ABDERRAHIM is the General Manager of MYRRHA aisbl/ivzw. Professor at the mechanical engineering department of the "Ecole Polytechnique de Louvain (EPL)" -"Université Catholique de Louvain" (UCLouvain); Member of the Standing Advisory Group on Nuclear Energy (SAGNE) for the Director General of the IAEA; Vice-Chair of the Nuclear Science CommiOee (NSC) of OECD/NEA.
        Since 01 July 2022 Prof. Dr. Hamid Aït Abderrahim is the General Manager of MYRRHA aisbl/ivzw. He was Deputy Director-General of SCK CEN, the Belgian nuclear research center. He lectures reactor physics and nuclear engineering at the "Université Catholique de Louvain" (UCLouvain) at the mechanical engineering department of the "Ecole Polytechnique de Louvain (EPL)".
        Since 1998, he is the director of the MYRRHA project, an accelerator driven system (ADS) coupling a sub-criYcal Pb-Bi cooled reactor and a high power proton linear accelerator through a spallaYon target.
        He is or has been coordinator of various projects of the European Commission framework programme related to advanced nuclear systems and the advanced nuclear fuel cycle.
        He is member of various scientific councils or research organisations or international institutes. (for complete information see attached file).

        Speaker: Hamid Ait ABDERRAHIM (General Manager of MYRRHA aisbl)
        CV_Hamid Aït Abderrahim_EN.pdf
      • 16
        RESEARCH and DEVELOPMENTS on NUCLEAR FUSION: MAGNETIC CONFINEMENT and LASER FUSION
        • a) INTRODUCTION to: PLASMA PHYSICS, NUCLEAR FUSION and TOKAMAK CONCEPT

          SPEAKER Jiangang LI, Director of institute of plasma physics, Hefei Institutes of Physical Science (ASIPP); Deputy director-general of Hefei Institute of Physical Science, Chinese Academy of Sciences(CASHIP);
          Vice President of the University of Science and Technology of China (USTC)
          Prof. LI Jiangang received his Ph.D. in plasma physics from Institute of Plasma Physics, Hefei Institutes of Physical Science (ASIPP) in 1990. He then worked for 2 years at Culham Science Center, UK as a visiting researcher.
          End 1992, he was named Head HT-6M Tokamak Division in charge of HT-6M physics and operation, as well as HT-7 tokamak operation and diagnostics, Head of Physics Division for HT-7 physics and operation and EAST physics design in 1996. In 2001 he became Director of ASIPP, leading an institute of more than 600 people engaged in thermonuclear fusion, fusion technology and engineering, plasma physics and its application, superconductivity, solar cell and ITER project.
          Prof Li is an ITER Council member, a member of the Technology Advisory Group of ITER project, a member of European Fusion Facility Review Panel. He is the Chairman of Chinese Fusion Advisory Committee, home team leader of ITER China, Chief Editor of Plasma Science and Technology, a board member of Nuclear Fusion.

          Speakers: Ambrogio FASOLI (tbc) (EPFL), Jiangang LI (tbc) (IPP and CAS, CN (Institute of Plasma Physics, Hefei Institute of Physical Sciences (ASIPP))
        • b) COFFEE BREAK
        • c) LASER DRIVEN NUCLEAR FUSION: CONCEPT, ACHIEVEMENTS & CHALLENGES

          SPEAKER: Jie Zhang Professor Academician of Chinese Academy of Sciences Selected in 2003, Foreign Associate of the U.S. National Academy of Sciences Selected in 2012.
          He is a prominent scientist for his pioneering contribution in laser-plasma physics and high energy density physics. He was elected Academician of Chinese Academy of Sciences (CAS) in 2003, member of Germany Academy of Sciences Leopoldina in 2007, Fellow of the Third World Academy of Sciences (TWAS) in 2008, Foreign member of Royal Academy of Engineering (FREng) in 2011, and foreign associate of American National Academy of Sciences (NAS) in 2012. In 2015, he was awarded,by the American Nuclear Society, the Edward Teller Medal; this is the most important recognition in the field of laser fusion physics and high energy density physics in the world.

          Speaker: Jie ZHANG (tbc) ((SJTU and CAS, CN (Institute of Plasma Physics, IPP, Shanghai Jiao Tong University, School of Physics and Astronomy))
        • d) ITER, a MEGA WORLDWIDE PROJECT, THE WAY TO NEW ENERGY: RESEARCH PROGRAMME

          SPEAKER: Yutaka KAMADA (ITER, Deputy Director)
          The primary objective of ITER ('way" in Latin)is the investigation and demonstration of burning plasmas—plasmas in which the energy of the helium nuclei produced by the fusion reactions is enough to maintain the temperature of the plasma, thereby reducing or eliminating the need for external heating. ITER will also test the availability and integration of technologies essential for a fusion reactor (such as superconducting magnets, remote maintenance, and systems to exhaust power from the plasma) and the validity of tritium breeding module concepts that would lead in a future reactor to tritium self-sufficiency.

          Speaker: Pietro BARABASCHI (tbc) (ITER)
          ITER
        • e) THE JT-60SA TOKAMAK at NAKA Laboratory (Japan)

          JT-60SA is a joint international fusion experiment being built and operated by Japan and Europe, in Naka, Japan, using infrastructure of the previous JT-60 Upgrade experiment alongside new hardware. SA stands for “super, advanced”, since the experiment will have superconducting coils and study advanced modes of plasma operation.
          JT-60SA certified as world’s largest tokamak
          With a plasma volume of 160 m3, JT-60SA is the largest tokamak in the world, a status it is expected to maintain until the start of ITER operations. Size matters for tokamaks, because creating conditions that are relevant for fusion such as high temperature and high density and maintaining those conditions in the plasma core is more feasible with a bigger device.
          The status of JT-60SA as the world’s largest tokamak was already acknowledged during the JT-60SA Inauguration Ceremony on 01 December 2023, when a certificate was awarded to mark JT-60SA inheriting this crown from JET (100m3) (watch here). When it comes to superconducting tokamaks, i.e. those which use superconducting magnets to sustain plasma for long periods without consuming excessive power, the difference between JT-60SA and the second largest tokamak is even greater – JT-60SA is in a class of its own.
          In 2024-2025, JT-60SA is undergoing a major upgrade to its heating systems, in-vessel components and plasma diagnostics. When operations restart it will not only be big but a lot more powerful too.

          Speaker: Yutaka YANAGI (tbc) (ITER)
        • f) WEST TOKAMAK at CEA Cadarache (France)

          WEST is situated at the nuclear research center of Cadarache, Bouches-du-Rhône in Provence, one of the sites of the Commissariat à l'Énergie Atomique. Tore Supra operated between 1988 and 2010. Its goal was to create long-duration plasmas. The upgrade to WEST took place between 2013 and 2016.

          Beginning in March 2013, Tore Supra Tokamak underwent an extensive refit, including new poloidal coils to achieve diverted operation, a new cooling system, and all-metal cladding, mainly for experiments on tungsten divertor technology for ITER. The reactor was renamed WEST, for "Tungsten ("W") Environment in Steady-state Tokamak". WEST achieved first plasma in December 2016.

          Tore Supra long held the record for the longest plasma duration time for a tokamak, at 6 minutes 30 seconds.With over 1000 MJ of energy injected and extracted in 2003, and it allowed researchers to test critical parts of equipment such as plasma facing wall components or superconducting magnets that will be used in its successor, ITER. As ITER faced long delays, WEST remained in operation and on 12 February 2025, it set a new record for duration at 22 minutes and 17 seconds, while operating at lower temperatures.
          Dr. E. Tsitrone, led the task force that allowed this world record.

          Speaker: Emanuelle TSITRONE (tbc) (CEA-IRFM)
    • Lunch time
    • Parallel session on Hands-on Lab
    • Coffee break
    • KEYNOTE 4: EXPLORING THE SUN: SOLAR PHYSICS FROM GALILEO GALILEI TO XXI CENTURY'?

      SPEAKERS:
      - Milan MAKSIMOVITCH (Observatoire de Paris, PSL, and LESIA (PSL&CNRS), Paris, FR)
      and
      - Nour RAWAFI (John Hopkins University, and NASA, USA)

      Solar Physics (Heliophysics) is the branch of astrophysics that specializes in the study of the Sun. It intersects with many disciplines of pure physics and astrophysics.
      This keynote will be shared by two eminent Solar Physicists. They will give an introduction on this part of Astrophysics and present the latest developments in this Field and the main challenges ahead.
      This keynote will serve as an introduction to the one on Saturday where these two lecturers will present two main worldwide Sun exploration project they are leading.

      • 17
        Lecture 1

        Dr. Milan MAKSIMOVITCH:
        Main scientific interests lie in solar and heliospheric physics and in particular in :
        - Models of Solar Wind formation and acceleration
        - In-situ measurements in the Solar Wind
        - Study and modelling of the radio emissions associated with the Coronal

        Speaker: Milan MAKSIMOVTICH (Observatoire de Paris, PSL and LESIA Lab (PSL and CNRS), Paris, FR)
      • 18
        Lecture 2

        Dr. Rawafi’s research encompasses a wide range of solar and heliospheric areas with an emphasis on the dynamic solar corona via the analysis of spectral and imaging observations, theory, and modeling. His primary contributions have been in the areas of solar magnetic fields, coronal spectropolarimetry, coronal plumes and jets, coronal mass ejections, coronal shockwaves, solar wind, solar energetic particles, and cometary physics.

        Speaker: Nour RAWAFI (John Hopkins University and NASA)
  • Saturday 6 September
    • 08:30
      BUS TRANSPORTAION
    • INTELLIGENCE ON DETECTORS: THE ASTROPHYSICS CASE

      N.B. The school is hosted on Saturday Sept 6, at the EUROPEAN GRAVITATIONAL OBSERVATORY, EGO. It. will include a visit of this Laboratory: https://www.ego-gw.it It.
      The Saturday hands-on Lab is reported to a special hands-on Lab session on Monday September (see Monday Sept 8 schedule).

      THE FIRST PART OF THE "JOURNEY OF THE SIGNAL" FROM THE FRONT END OF THE INSTRUMENTS TO THE. FAR END PROCESSORS, DEDICATED TO "INTELLIGENCE ON DETECTORS", ENDS ON THE SATURDAY OF THE FIRST WEEK, WITH THE ASTRO/COSMO CASE.

      THE EXAMPLE-CASES WILL BE DEDICATED TO THE PROJECTS ON THE TWO TOPICS PRESENTED IN THIS SCHOOL EDITION, i.e. GW & THE SUN PHYSICS.

      • 19
        NEXT GENERATION OF GW EXPERIMENTS: part 1
        • a) The EUROPEAN. GRAVITATIONAL. OBSERVATORY, EGO,
          Speaker: Massimo CARPINELLI, EGO DIRECTOR (EUROPEAN GRAVITATIONAL OBSERVATORY, EGO)
        • b) GRAVITATIONAL WAVES: THE LEGACY OF LIGO and Virgo

          ABSTRACT: As the LIGO-Virgo-KAGRA O4 observing run unfolds, nearly 300 gravitational-wave events have been detected, leading to the discovery of close to 1000 new black holes. These milestones mark the opening of an entirely new window onto the dark universe, made possible by the pioneering efforts of the LIGO and Virgo collaborations. This lecture will offer an overview of the remarkable progress in the field, tracing the path from the formidable experimental challenges faced in the early stages to the landmark detections that have revolutionized astrophysics. We will discuss the most recent scientific results and outline the roadmap for the coming years

          SPEAKER: Giovanni LOSURDO, Professor of Experimental Physics at the Scuola Normale Superiore of Pisa.
          Since the 1990s, he has worked on the Virgo experiment for gravitational wave detection, initially focusing on the development of the Superattenuator, under the guidance of Adalberto Giazotto. Later, he contributed to the construction, commissioning, and subsequent upgrades of the detector. From 2009 to 2017, he served as the Project Leader for Advanced Virgo, the enhancement program for the Virgo detector, which enabled the observation of gravitational waves in August 2017 and contributed to the groundbreaking discovery that ushered in a new era of multi-messenger astronomy. From 2020 to 2023, he was the Spokesperson of the Virgo Collaboration. He has received the Galilei Prize for Science and the Tartufari Prize for Physics and Chemistry from the Accademia dei Lincei. He shared with the LIGO and Virgo Collaborations the Special Breakthrough Prize in fundamental physics, the Gruber Cosmology Prize, the Einstein Medal. He is a Fellow of Accademia dei Lincei since 2019.
          In 2017 he was awarded the honor of “Commendatore dell’Ordine al Merito della Repubblica Italiana” by President Mattarella.

          Speaker: Giovanni LOSURDO (SCUOLA NORMALE, SNS, Pisa, IT)
        • c) THE LISA EXPERIMENT

          Antoine PETITEAU: Co-Lead of LISA mission, member of Executive Committee of LISA Consortium, PI LISA France, member of LISA Consortium board, Member of the LISA Science Study Team at ESA, Lead of the LISA Data Processing Group and of the Ground Segment for the LISA Consortium

          Speaker: Antoine PETITEAU (CEA-IRFU, University Paris-Saclay, FR)
      • 10:50
        COFFEE/TEA BREAK
      • 20
        VISIT OF EGO LABORATORY
      • 12:30
        LUNCH AT EGO LABORATORY
      • 21
        NEXT GENERATION OF GW EXPERIMENTS: part 2
        • a) THE EINSTEIN TELESCOPET: ADVANCING THE FRONTIER OF GRAVITATIONAL WAVE. ASTRONOMY

          ABSTRACT: The Einstein Telescope (ET) represents the next-generation European gravitational wave observatory, designed to probe the Universe with unprecedented sensitivity in the frequency range from 1 Hz to several kHz. Currently in its Preparatory Phase (2022–2026), coordinated under the Horizon Europe framework, the ET is advancing through key steps including site characterization, technical design finalization, legal entity formation, and community engagement. With a triangular or L´shaped underground configuration and a 10 km to 15km-long arms , ET will be capable of detecting gravitational waves from the earliest phases of stellar evolution, probing binary black hole and neutron star mergers at redshifts beyond z ≈ 10.

          This talk presents a comprehensive overview of the Einstein Telescope project: from its scientific potential and technological innovations to its possible locations and organizational progress. We will explore ET's physics potential across multiple frontiers, including precision tests of general relativity, constraints on the equation of state of neutron stars, early-universe cosmology, and multimessenger astrophysics. By enabling continuous gravitational wave detection with high signal-to-noise ratios, the Einstein Telescope is poised to transform our understanding of fundamental physics and the dynamic Universe.

          SPEAKER: Mario MARTINEZ PEREZ is an ICREA Research Professor at the Institut de Física d'Altes Energies (IFAE) in Barcelona, renowned for his contributions to experimental particle physics and gravitational wave research. He earned his degree in Theoretical Physics from the Universidad Autónoma de Madrid and completed his PhD at DESY in Hamburg, focusing on deep inelastic scattering within the ZEUS experiment. Subsequently, he joined Fermilab in the United States to contribute to the CDF experiment at the Tevatron collider, emphasizing searches for new physics. In 2007, Martínez Pérez returned to Europe to participate in the ATLAS experiment at CERN's Large Hadron Collider (LHC), where he led the IFAE-Barcelona group's involvement. Between 2015 and 2018, he served as Head of IFAE's Experimental Division, Scientific Manager of the Spanish High Energy Physics Program, and Spain's Scientific Delegate to the CERN Council. Since 2018, his research has expanded to gravitational wave physics, involving collaborations with the LIGO-Virgo-KAGRA interferometers. He is a member of the Virgo collaboration and the Einstein Telescope (ET) Organisation Directorate, contributing to the development of this next-generation gravitational wave observatory. Notably, Martínez Pérez serves as the European Coordinator of the Einstein Telescope Preparatory Phase (ET-PP), a Horizon Europe INFRA-DEV project aimed at addressing the fundamental prerequisites for the approval, construction, and operation of the Einstein Telescope.

          Speaker: Mario MARTINEZ (IFAE, Barcelona, SP, IFAE Deputy Director)
        • b) TERRESTRIAL VERY-LONG-BASELINE ATOM INTERFEROMETRY

          ABSTRACT: Long-baseline atom interferometry is a promising technique for probing various aspects of fundamental physics, astrophysics and cosmology, including searches for ultralight dark matter (ULDM) and for gravitational waves (GWs) in the frequency range around 1 Hz that is not covered by present and planned detectors using laser interferometry. The MAGIS detector is under construction at Fermilab, as is the MIGA detector in France. The PX46 access shaft to the LHC has been identified as a very suitable site for an atom interferometer of height ∼100m, sites at the Boulby mine in the UK and the Canfranc Laboratory are also under investigation, and possible sites for km-class detectors have been suggested. The Terrestrial Very-Long-Baseline Atom Interferometry (TVLBAI) Proto-Collaboration proposes a coordinated programme of interferometers of increasing baselines. In this lecture we present our concerted efforts to evaluate progress, address emerging challenges, and refine strategic directions for future large-scale atom interferometry projects. Our commitment to collaboration is manifested by the integration of diverse expertise and the coordination of international resources, all aimed at advancing the frontiers of atom interferometry physics and technology, as set out in a Memorandum of Understanding signed by over 50 institutions.

          SPEAKER: Marilù CHIOFALO got her PhD at the Scuola Normale Superiore and is condensed-matter professor at the University of Pisa, teaching elementary physics in life-sciences and physics BS-courses, quantum liquids for MS and PhD in physics, and The physics of everyday life for teachers training. Her way in research is interdisciplinary and international, focusing on quantum states of matter as quantum simulators for condensed-matter, quantum metrology and fundamental physics, biology and visual neurosciences and, more recently, on physics education research. She authors radio and video formats, writes on magazines about science and society, and engages general public on quantum physics and technologies by combining the languages of arts and science. She is part of Labodif and co-founder of Women for Quantum.

          Speaker: Maria Luisa CHIAFALO (University of Pisa, Physics Department Enrico Fermi, Pisa, IT))
        • c) QUANTUM SENSING FOR HIGH-FREQUENCY GRAVITATIONAL WAVES

          ABSTRACT: The discovery of gravitational waves has revolutionized astrophysics by opening a new observational window into the Universe, revealing phenomena previously inaccessible via electromagnetic methods. As the field advances, the high-frequency regime (MHz to GHz) emerges as a promising yet largely unexplored frontier, potentially unlocking insights into novel astrophysical and cosmological processes.
          Microwave cavities subjected to strong magnetic fields are among the most promising platforms for detecting high-frequency gravitational waves (HFGWs). These searches exploit the Gertsenshtein effect, whereby gravitational waves convert into electromagnetic radiation in a static magnetic field. In a resonant microwave cavity, this interaction displaces the vacuum state, generating a coherent electromagnetic signal. Given the extreme weakness of the expected signal, surpassing the standard quantum limit in detector sensitivity is essential.
          Superconducting qubits, particularly in the C and X bands, have demonstrated exceptional potential for quantum-limited sensing. However, strong magnetic fields necessary for the Gertsenshtein effect pose significant engineering challenges, such as requiring either magnetic shielding or the development of magnetically robust qubit technologies. Moreover, decoherence and readout noise can further limit sensitivity. These limitations can be addressed through quantum non-demolition (QND) measurement strategies, including repeated measurements or parallel readout using multiple qubits.
          This seminar will review recent advances in quantum sensing with superconducting qubits and explore their application to HFGW detection, with a focus on GravNet—a proposed network of cryogenic detectors designed to probe the high-frequency gravitational wave spectrum.

          SPEAKER: Dr. Claudio GATTI obtained his degree in Physics at Rome University “La Sapienza” and the Ph.D. in Physics at Pisa University. He is Research Director at Laboratori Nazionali di Frascati (LNF) of INFN the Italian Institute of Nuclear Physics. His background is in experimental Particle Physics and collaborated with the KLOE and ATLAS experiments. He is the Coordinator of FLASH and of QUAX@LNF, two INFN funded experiments searching for galactic axions at LNF. He coordinates the activities of COLD (http://coldlab.lnf.infn.it) the cryogenic laboratory for detectors at LNF where several R&D projects on superconductive cavities and quantum sensors based on superconducting qubits are ongoing.
          In 2024, Claudio Gatti received the ERC Synergy Grant with M. Schott, D. Budker and D. Blas for the project GravNet a global network for the search for high-frequency gravitational waves.

          Speaker: Claudio GATTI (FRASCATI INFN National Laboratory, Rome, IT)
    • 17:30
      COFFEE/TEA BREAK
    • KEYNOTE 5: EXPLORATION OF THE SUN: THE NEW INSTRUMENTS AND EXPERIENCES
      • 22
        SOLAR ORBITER (ESA)

        Dr. Milan MAKSIMOVITCH (Director of Research at PSL-LESIA/CNRS)
        The LESIA (Laboratory of Space Studies and Instrumentation in Astrophysics) is one of the 5 Scientific Departments of the Paris Observatory and also a CNRS Laboratory (mixed Research Unit of CNRS).
        LESIA is associated with: Observatoire de Paris-PSL (home institution) ; Centre National de la Recherche Scientifique (CNRS); Sorbonne University and Université Paris Cité.It is one of the largest French Labs of research in Astrophysics.
        LESIA’s primary role:
        - The design and implementation of scientific instrumentation in space and on the ground;
        - Analysis and interpretation of scientific observations made by use of the produced instruments;
        - Development of advanced techniques applied in ground-based instruments and in space instruments.

        Milan Maskimovitch's current Experience in Space Instrumentation
        - 03/2007-currently : PI of the Radio & Plasma Waves instrument on ESA’s Solar Orbiter, Co-I on the EPD, SWA and MAG instruments on this mission
        - 09/2010-currently : Lead CoI for the FIELDS instrument on Parker Solar Probe
        - 10/2006-currently : co-PI of the SWAVES instrument on STEREO

        Speaker: Milan MAKSIMOVITCH (Observatoire de PARIS, FR)
      • 23
        PARKER SOLAR PROBE (NASA)

        Dr. Nour Rawafi, is an astrophysicist and the project scientist for NASA’s Parker Solar Probe mission, launched in 2018. He is a member of the American Geophysical Union, American Astronomical Society (AAS), and AAS Solar Physics Division.
        Awards:
        2019 NASA Silver Achievement Medal Award for Parker Solar Probe
        2019 AAS Neil Armstrong Award for Parker Solar Probe
        2016 APL Outstanding Special Publication Award for “The Solar Probe Plus Mission: Humanity’s First Visit to Our Star,” published in Space Science Reviews
        2016 SES/SRP Merit Award for exceptional impact, expertise, and performance
        2016 Parker Solar Probe Special Achievement Award for outstanding contributions to the mission

        Speaker: Nour E. RAWAFI (NASA and J. Hopkins, USA)
    • 19:30
      BUS TRANSPORTATION
  • Sunday 7 September
    • FREE DAY: VISITS of some key places in TUSCANY

      THE WONDERFUL TUSCANY WHERE PISA IS LOCATED IS A RENOWN PLACE NOT ONLY IN ITALY BUT ALSO IN THE WORLD, FOR THE MARVELOUS LANDSCAPE, THE IMMENSE CULTURAL HERITAGE AND AT THE SAME TIME THE HIGHLY SKILLED EDUCATIONAL, INDUSTRIAL AND RESEARCH MANY FACETED ACTIVITIES.

      NOTE: ALSO ORGANIZED BY FIRENZE-INFN A VISIT TO THE CULTURAL HERITAGE LABORATORIES

  • Monday 8 September
    • Hands-on Lab parallel session:

      PLEASE NOTE: This is the 5th Hands-on Lab session. It replaces the one on Saturday afternoon which is thus moved to Monday morning.

    • 11:30
      WALKING FROM THE LABS TO THE LECTURE HALL + COFFEE BREAK

      ----------> FROM HANDS-ON LAB SESSION to LECTURE HALL <------------

    • ADVANCES in DATA TRANSFER TECHNOLOGIES

      THE SECOND WEEK IS DEDICATED TO THE "JOURNEY OF THE DATA" EXTRACTED FROM THE INSTRUMENTS TO THE FAR END DATA PROCESSING. IT WILL FOCUS ON THE NEW TECHNOLOGIES ON DATA TRANSMISSION, AND ADVANCED SIGNAL AND DATA PROCESSING BASED ON IA & QUANTUM TECHNOLOGIES AS WELL AS NANOTECHNOLOGIES.

      IT WILL START WITH THE ADVANCES on DATA TRANSMISSION:
      - One hour introductory lecture, at the end of the morning,
      - A lecture on Quantum Communication on the Quantum Day, will complete this topic.

      Hands on Labs dedicated to the data transmission will allow to deepen the knowledge on this important topic in the signal processing in both fundamental and applied research.

      • 24
        CHALLENGES & SOLUTIONS TO THE EVER INCREASING HIGH RATE/HIGH DATA TRANSMISSION IN RESEARCH (and daily life)
        Speaker: TBA
    • Lunch time
    • Parallel session on Hands-on Lab
    • Coffee break
    • KEYNOTE 6: FONDATION BRUNO KESSLER, FBK, A CENTER OF CUTTING EDGE HIGH TECH, INNOVATION AND EXCELLENCE

      SPEAKER: Richard HALL_WILTON (FBK-SD, Trento, Italy)

      SOLID→ LIQUID→ GAS→ PLASMA. PLASMA IS THE MOST ABUNDANT ENERGY SOURCE OF THE UNIVERSE AND YET SO MYSTERIOUS.  THIS 4TH STATE OF THE MATTER IS EVERYWHERE IN THE TOPICS COVERED IN THE SCHOOL, FROM ASTRO/COSMO, THE SUN TO NUCLEAR FUSION.

  • Tuesday 9 September
    • POST MOORE, POST EXASCALE HIGH PERFORMANCE COMPUTING ERA

      AFTER DATA TRANSMISSION, THE NEXT CHALLENGING STEP IS ON HIGH PERFORMANCE COMPUTING, HPC.

      THIS SESSION TACKLES THE NOVEL DEVELOPMENTS/ADVANCES ON BOTH HARDWARE & SOFTWARE.

      The cross-disciplinary and worldwide facets of this field will be highlighted by experts and key projects from Europe (EuroHPC-JU Enterprise), Asia (Tokyo University) and USA (Keynote talk). Some of them will also organized hands-on Labs (e.g. Tokyo University representatives).

      • 25
        CLOUD-HPC WOKFLOWS: FROM SCIENTIFIC APPLICATIONS TO AI AND BACK

        ABSTRACT: Within the Italian National Center in HPC and Quantum Computing (ISCS) and a sequence of EuroHPC-funded projects, we developed two cloud-HPC development tools to exploit future-generation high-performance platforms, which can be optimised for scientific computing or AI and batch or interactive access. The first is StreamFlow, an implementation of the open standard CWL (Common Workflow Language) that makes it possible to design scientific workflows that can be seamlessly ported to different platforms. StreamFlow fosters declarative workflows that can be executed on HPC platforms (e.g., based on SLURM), cloud platforms (e.g., based on K8S, AWS), and hybrid platforms without code modification. The second tool is CAPIO (Cross-Application Programmable I/O), which transforms files exchanged between parallel applications into streams, introducing further parallelism and helping to avoid the I/O bottleneck. StreamFlow+CAPIO has many applications, from genomics pipelines to astrophysics and materials science workflows to AI for science pipelines.

        SPEAKER: Marco ALDINUCCI is a full professor at the University of Turin and leads the Parallel Computing research group. He has published over 200 papers, received major awards (HPC Advisory Council, IBM Faculty), and led EU projects that secured €15M in funding for the University of Torino. He co-designed open-source frameworks like Fastflow and Streamflow and founded several national HPC labs, including HPC4AI and the CINI HPC and Software & Integration laboratories.

        Speaker: Marco ALDINUCCI (TORINO UNIVERSITY, Computer Science Department)
      • 26
        DISAGGREGATING SYSTEM ARCHITECTURES (e.g. MEMORY SYSTEMS) FOR FUTURE HPC AND ARTIFICIAL INTELLIGENCE WORKLOAD

        Robert PATTI, CeO of NHANCED-Semiconductors (USA): with staff experience averaging more than 20 years, our seasoned team of design engineers and manufacturing professionals have solid expertise in high-density, low-power products. They work in deep submicron nodes with a keen eye for cost-size-weight reduction and design sustainability. They have created sensors, FPGAs, SerDes, memory chips (DRAM, MRAM, and RRAM), ASICs, AI systems, and many other ingenious devices.

        As pioneers in advanced packaging and heterogeneous integration, our team boasts an admirable record of creating successful state-of-the-art products (https://nhanced-semi.com/about/)

        Speaker: Robert PATTI (CeO NHanced-Semiconductors, USA)
      • 10:30
        COFFEE/TEA BREAK
      • 27
        INNOVATIVE SUPERCOMPUTING, by Integrations of Simulations/Data/Learning , ON LARGE-SCALE HETEROGENEOUS SYSTEMS

        ABSTRACT:
        Recently, supercomputing has been changing dramatically. Integration/convergence of Simulation/Data/Learning (S+D+L) is important towards Society 5.0 proposed by Japanese Government, which enables integration of cyber space and physical space. In 2015, we started the BDEC project (Big Data & Extreme Computing) for development of supercomputers and software for integration of (S+D+L). In May 2021, we started operation of the Wisteria/BDEC-01. It is the first BDEC system, which consists of computing nodes for computational science and engineering with A64FX (Odyssey), and those for Data Analytics/AI with NVIDIA A100 GPU’s (Aquarius). We also develop a software platform “h3-Open-BDEC” for integration of (S+D+L) on the Wisteria/BDEC-01, which is designed for extracting the maximum performance of the supercomputers with minimum energy consumption focusing on (1) Innovative method for numerical analysis by adaptive precision, accuracy verification and automatic tuning, (2) Hierarchical Data Driven Approach based on machine learning, and (3) Software for heterogeneous systems. Integration of (S+D+L) by h3-Open-BDEC enables significant reduction of computations and power consumption, compared to those by conventional simulations. In January 2025, we started to operate the Miyabi system together with University of Tsukuba. Miyabi consists of GPU Cluster with 1,120 nodes of NVIDIA GH200 (Miyabi-G) and 380 sockets of Intel Max 9480 with HBM2e. In this talk, I will mainly introduce the results related to the integration of (S+D+L) using h3-Open-BDEC on Wisteria/BDEC-01, but will also provide an overview of new innovations using Miyabi.

        N.B. A dedicated Hands-on Lab is organised on this advanced HPC topic in collaboration with the U. of Tokyo IT Center.

        SPEAKER: Kengo NAKAJIMA, Professor in the Supercomputing Research Division of the Information Technology Center at the University of Tokyo since 2008. Prior to joining the University of Tokyo in 2004, he spent 19 years in industry.
        Also a deputy director of RIKEN R-CCS (Center for Computational Science) since 2018.
        His research interest covers computational mechanics, computational fluid dynamics (CFD), numerical linear algebra, parallel iterative algorithms, parallel preconditioning methods, multigrid methods, parallel programming models, adaptive mesh refinement (AMR), and parallel visualization.
        He holds a B.Eng (1985, Aeronautics, University of Tokyo), an MS (1993, Aerospace Engineering, University of Texas at Austin), and a PhD (2003, Engineering Mechanics, University of Tokyo).

        Speaker: Kengo NAKAJIMA (Information Technology Center, The University of Tokyo, Japan RIKEN Center for Computational Science (R-CCS), Japan)
    • Lunch time
    • Parallel session on Hands-on Lab
    • Coffee break
    • KEYNOTE 7: COMPUTING BEYOND MOORE'S LAW

      SPEAKER: John SHALF ; CTO for the National Energy Research Supercomputing Center and Department Head for Computer Science and Data Sciences at Lawrence Berkeley National Laboratory (LBNL).
      Coauthor of over 60 publications in the field of parallel computing software and HPC technology, including three best papers and the widely cited report “The Landscape of Parallel Computing Research: A View from Berkeley” (with David Patterson and others). He also coauthored “ExaScale Software Study: Software Challenges in Extreme Scale Systems,” which sets the Defense Advanced Research Project Agency’s (DARPA’s) information technology research investment strategy for the next decade. He was a member of the Berkeley Lab/NERSC team that won a 2002 R&D 100 Award for the RAGE robot.
      Before joining Berkeley Lab in 2000, Shalf was a research programmer at the National Center for Supercomputing Applications at the University of Illinois and a visiting scientist at the Max-Planck-Institut für Gravitationphysick/Albert Einstein Institute in Potsdam, Germany, where he co-developed the Cactus code framework for computational astrophysics.

  • Wednesday 10 September
    • THE ARTIFICIAL INTELLIGENCE DAY

      AI IS INDEED PLAYING AN INCREASING KEY ROLE AT ALL STAGES OF THE SIGNAL AND DATA PROCESSING. IT PROVIDES POWERFUL TOOLS BOTH HARDWARE & SOFTWARE TO INCLUDE INTELLIGENCE AT ALL STAGES OF THE SIGNAL AND DATA PROCESSING.

      THIS VAST TOPIC WILL BE COMPLEMENTED BY A DEDICATED SESSION AT THE SYMPOSIUM ON HIGH TECH x FUNDAMENTAL RESEARCH and SEVERAL HANDS-ON LABS

      • 28
        AI FAST EVOLVING TECHNOLOGY: WHERE DO WE STAND? MAIN CHALLENGES, LIMITS and PERSPECTIVES

        This part of the AI session is still in preparation

        Speaker: TBA
      • 29
        From Analog to Automation: Detectors Integrated with AI and beyond
        Speaker: Nhan TRAN (Fermi National Accelerator Lab. (USA))
      • 10:20
        COFFEE/TEA BREAK
      • 30
        AI FOR FUNDAMENTAL RESEARCH: THE HEP CASE
        Speaker: Maurizio PIERINI (EP Department, CERN, CH)
      • 31
        AI EMBEDDED IN HARDWARE: from smart pixels to eFPGA and the multiple applications.

        Including ML-based qubit readout

        Speaker: Maurizio PIERINI (CERN)
    • Lunch time
    • Parallel session on Hands-on Lab
    • Coffee break
    • KEYNOTE 8: GOVERNING ARTIFICIAL INTELLIGENCE: BUILDING TRUST THROUGH ETHICS, LAW and TECHNOLOGY

      SPEAKER: Francesco MARCELLONI (University of PISA), Professor of Data Processing Systems at the Department of Information; Vice Rector of UNIPI for international cooperation and relations, Head of the AI-DII (Artificial Intelligence Research & Development Group) at UNIPI.

      ABSTRACT: Artificial Intelligence (AI), especially Generative AI, presents both transformative opportunities and significant risks, ranging from bias and opacity to misuse and societal impact. This talk will explore how these risks can be addressed through a combination of technological safeguards, ethical frameworks, and regulatory measures. Focusing on the intersection of technology, law, and ethics, it will examine emerging governance models, such as the EU AI Act, and address the challenges involved in building trustworthy, human-centered AI systems.

      BIO: Francesco Marcelloni is Full Professor at the Department of Information Engineering, University of Pisa (Italy). He serves as Director of the Knowledge Hub on AI of the European university alliance Circle U., and coordinates both the Good AI Lab and the IT2PAO Lab at the University of Pisa. He is also a member of the Board of Directors of the University. His main research interests include federated learning, explainable artificial intelligence (XAI), fake news detection, sentiment analysis, opinion mining, and clustering algorithms. He has co-edited four volumes and four special issues in international journals, and is (co-)author of one book and more than 280 scientific publications in peer-reviewed journals, books, and conference proceedings. In the last years, he has received the 2021 IEEE Transactions on Fuzzy Systems Outstanding Paper Award and the 2022 IEEE Computational Intelligence Magazine Outstanding Paper Award. Currently, he serves as Associate Editor for IEEE Transactions on Fuzzy Systems (IEEE), Information Sciences (Elsevier), and Evolving Systems (Springer) journals. He has served as General Chair and Program Chair of international conferences and has been invited as a speaker at scientific and outreach events. He has coordinated several national and international research projects funded by both public institutions and private organizations.

  • Thursday 11 September
    • THE QUANTUM DAY

      THE EXPERIMENTAL OUTCOMES FROM QUANTUM PHENOMENA LEADING TO THE DEVELOPMENT OF QUANTUM TECHNOLOGIES ARE PLAYING AN INCREASING KEY ROLE AT ALL STAGES OF THE SIGNAL AND DATA PROCESSING e.g. QUANTUM SENSING, QUANTUM COMPUTING AND QUANTUM COMMUNICATION.
      Lectures in this school session have already introduced this overall topic with 1) QUANTUM PHYSICS PHENOMENA and QUANTUM TECHNOLOGIES and 2) QUANTUM SENSING, plus 3) THE QUANTUM HEP EXPERIMENTS.

      HERE THE SESSION WILL CONCENTRATE ON QUANTUM COMPUTING & QUANTUM COMMUNICATION which play or will play essential roles in the data transmission and data processing.

      • 32
        QUANTUM COMPUTING
        • a) QUANTUM COMPUTING, ITS SCIENTIFIC BASIS and PERSPECTIVES

          SPEAKER: Simone MONTANGERO, BS in Physics (Pisa University), PhD in Physics in Milan University, Postdoc at Scuola Normale Pisa, Humboldt Fellow at Karlsruhe University, and then academic career at Ulm University, before nominated Professor at the Department of Physics and Astronomy of Università degli Studi di Padova,in 2018, where he directs the Quantum Computing and Simulation Center. He is Honorary Professor at Ulm University and co-leads the Quantum Computing Spoke of the Italian National Center for HPC, Big-Data and Quantum Computer.

          Speaker: Simone Montangero (Padova University, IT)
        • b) QUANTUM COMPUTING: WHAT CAN ALREADY BE ACHIEVED WITH PRESENT QUANTUM CAPABILITIES

          ABSTRACT: Inspired from the study on "Quantum Computing for High-Energy Physics: State of the Art and Challenges", by A. di Meglio et al: (PRX QUANTUM 5, 037001 (2024)).

          SPEAKER: Michele GROSSI Senior Researcher - Quantum Science Technology & Research Innovation, at the IT Department at CERN (CH)

          Senior fellow in quantum computing and algorithm at CERN. Industrial PhD in High Energy Physics from the University of Pavia working on quantum machine learning models for boson polarisation discrimination.Quantum Technical Ambassador and Hybrid Cloud solution Architect at IBM, for several years. Currently leading a group of researchers at CERN, focusing on application of quantum algorithm. Coordinator of the Hybrid Quantum Computing Infrastructures and Algorithms competence centre. Focus on the development of Quantum Machine Learning pipelines for High Energy Physics problems and beyond, in collaboration with industries and universities.

          WORK EXPERIENCE: Hybrid Quantum Computing Infrastructures and Algorithms Coordinator since 01/2024, Switzerland Coordinating and supervising of Quantum Computing projects at CERN. Responsible for the Hybrid Quantum computing and Algorithm Competence Center. Main research topics are quantum machine learning and the investigation of distributed quantum computing, development of hybrid classic-quantum algorithms pipeline for theoretical experimental physics and beyond, simulation of high dimensional classical and quantum systems. With a special focus on IT Hybrid Infrastructure, the objective is to develop and interconnect HPC and Quantum Computing from algorithm, software and middleware point of view. Building collaboration with industry and universities.

          Speaker: Dr Michele GROSSI (IT Department, CERN, CH)
      • 10:20
        COFFEE OR TEA BREAK
      • 33
        QUANTUM COMMUNICATION:SECURITY APPLICATIONS and QUANTUM INTERNET

        ABSTRACT: Quantum communication is emerging as a transformative technology, offering unparalleled security and paving the way for the development of the quantum internet. We will explore the most relevant security applications enabled by quantum communication, including quantum key distribution (QKD), as well as other protocols offering security that is fundamentally based on quantum principles. We will discuss how quantum principles enhance secure data transmission and protect against evolving cybersecurity threats. Furthermore, we will examine ongoing efforts to build a global quantum internet, the challenges associated with quantum networking, and the potential for revolutionizing information exchange. By addressing both theoretical foundations and practical implementations, this session aims to provide insights into the future of quantum-secured communication.

        SPEAKER: Luis TRIGO VIDARTE, obtained his PhD at Institut d’Optique/Sorbonne Université in Paris studying practical implementation aspects of CV-QKD technologies, including fiber, space and chips. He is currently, a postdoctoral researcher in the Optoelectronics group at the Institute of Photonics Sciences (Institut de Ciències Fotòniques) in Barcelona area. He focuses on experimental implementations of quantum-safe cryptography protocols, including quantum key distribution (QKD), post-quantum cryptography (PQC), and other quantum security protocols beyond QKD, like secure multiparty computation (SMPC). He is also exploring the potential of photonic implementations in computing and machine learning.

        Speaker: Luis TRIGO VIDARTE (IFCO, Barcelona, SP)
    • Lunch time
    • Parallel session on Hands-on Lab
    • Coffee break
    • KEYNOTE 9, "SPECIAL KEYNOTE" : MENS SANA IN CORPORE SANO

      This special "keynote" indeed follow the traditional session on "Mens sans in corpora sano" which includes this year the choice between participating to either the RUN or the FOOTBALL session.

      THEY ARE OPENED TO THE PARTICIPATION OF BOTH THE SCHOOL ATTENDANTS AND THE LECTURERS/LAB ORGANIZERS.
      ALL ARE STRONGLY ENCOURAGED TO PARTICIPATE and AWARDS WILL BE DELIVERED TO THE WINNERS.

  • Friday 12 September
    • NANO-TECHNOLOGY/-BIOLOGY/-MEDICINE

      NANOTECHNOLOGIES ARE PLAYING AN INCREASING IMPORTANT ROLE AT THE FOREFRONT OF THE SIGNAL PROCESSING AS WELL AS IN SEVERAL STEPS OF THE DATA PROCESSING. HERE THE FOCUS IS THE MULTIFACETED APPLICATIONS IN SEVERAL FUNDAMENTAL AND APPLIED FIELDS, ESPECIALLY BIOLOGY AND MEDICINE

      • 34
        INTRODUCTORY VISION TO NANOTECHNOLOGY
        Speaker: Fabio BELTRAM (SNS and NEST)
      • 35
        ADVANCES IN COMPUTER MODELING AT THE NANO-SCALES: MATERIALS & NANO-BIOTECH

        ABSTRACT:
        The nano-scale realm is located at a specific boundary of time/size and especially energy scales where the quantum effects cannot be neglected any longer, and at the same time determine the behavior of the system at macroscopic scales. This poses extremely hard challenges not only to experimentalists, but also to modelers, forced to adopt multi-scale approaches combining a large variety of methods and different resolution representation of the system under study. In the first part an overview of the techniques used will be given, focusing on the recent developments, where the deep neural networks and AI algorithm in general have taken fundamental roles, and giving perspectives towards the role of quantum computing. In the second part the focus will be moved to applications, illustrating specific examples both in the field of the materials science (design of intelligent materials) and in the nano-bio-tech materials (development of molecular constructs for theranostics).

        SPEAKER: Valentina TOZZINI is Head of Research at the Istituto Nanoscienze (NANO) of the National Research Council, Unit of Lab NEST-SNS, Pisa. Graduated in Physics (UniPi and SNS), PhD in Physics of Matter (SNS) and Specialist in Medical Physics (UniPi), her expertise is on multi-scale computer modeling and simulations, continuously feeded through a wide network of international collaborations and research visits (e.g. UCSD, Nijmegen Univ). During the years, VT has developed and applied computational methods to studies equally distributed in the fields of advanced materials (e.g. graphene and other 2D materials, with recent applications in the field of green energy and in the neutrinos detection) and of nano-bio technologies (with recent applications to the development of viral or nucleic acids sensors), combining different methodologies (Monte Carlo and molecular dynamics simulations with advanced statistical analysis and neural-network based algorithms) and supported by several EU and national grants. VT dedicates also to editorial activity (chief editor of the modeling section of FMB, and editorial board of the Analysis magazine of scientific culture and politics) and to didactict activity (courses of Introduction to molecular biophysics, Structure of Matter and Numerical Methods for Physics, at the Physics dept UniPi).

        Speaker: Valentina TOZZINI
      • 10:50
        COFFEE/TEA BREAK
      • 36
        ADVANCES IN COMPUTER MODELING AT THE NANO-SCALES: MATERIALS & NANO-BIOTECH (cont'd)

        Part 2.

        Speaker: Valentina TOZZINI (NEST-SNS-UNIPI)
      • 37
        FLASH THERAPY: A GROUNDBREAKING TECHNOLOGY FOR CANCER TREATMENT

        ABSTRACT:
        The flash effect is a radiobiological effect, characterized by a sparing of radiation damage to healthy tissues, maintaining unchanged the therapeutic efficacy on the tumor; the effect has been demonstrated in vitro and in vivo on different organs and animal models, delivering the radiation beam in very short times and very high dose-rates. Although the experimental evidence of the effect has generated enormous expectations in the field of Radiotherapy and Oncology in general, its clinical implementation requires that numerous technological (realization of clinical Ultra-High-dose-Rate particle accelerators), dosimetric (realization of measurement instruments capable of measuring such intense beams), radiobiological (quantitative knowledge of the dependence of the entity of the effect on the variation of the irradiation parameters and knowledge of the underlying radiobiological mechanisms) and clinical (realization of clinical protocols) problems, be faced and overcome.
        This lecture will cover these topics, from the state of the art to the most recent scientific and clinical news.

        SPEAKER: Fabio DI MARTINO has been a medical physicist at Pisa University Hospital since 2002. Throughout his career, he has combined his professional practice with extensive research, focusing primarily on dosimetry in radiotherapy and nuclear medicine.
        He is a co-founder and lead medical physicist at the Centro Pisano Flash Radiotherapy (CPFR), a multidisciplinary center comprising physicists, radiotherapists, and biologists. The center specializes in Flash Radiotherapy and is equipped with an UHDP electron accelerator and a dedicated radiobiology laboratory
        Fabio Di Martino has authored numerous publications and is actively involved in various research projects, particularly on the Flash and Mini-Beam effects. He also serves as a coordinator for both the AIFM working group and the INFN MIRO project in these topics.

        Speaker: Fabio DI MARTINO (CISUP-Unit of Health Physics - University Hospital of Pisa)
    • Lunch time
    • Parallel session on Hands-on Lab
    • Coffee break
    • KEYNOTE 10: FUNDAMENTAL SCIENCES & CULTURAL HERITAGE
      Conveners: Francesco TACCETTI (INFN-Firenze, LABEC-INFN), Lorenzo GIUNTINI (INFN-Firenze, LABEC-INFN)
  • Saturday 13 September
    • HIGH TECH and FUNDAMENTAL SCIENCE SYMPOSIUM: Part 1 on ENERGY & XXIst CENTURY

      THIS SESSION IS DEDICATED TO THE PRESENTATIONS BY HIGH TECH EXPERTS FROM THE INDUSTRIAL WORLD DESCRIBING THEIR INVOLVEMENT on THE ENERGY in the XXIst CENTURY

      • 38
        ENERGY & THE XXI CENTURY: THE NEW DEVELOPMENTS ON NUCLEAR FISSION PLANTS
        • a) 1.- SUSTAINABLE NUCLEAR POWER PLANTS, SMALL NUCLEAR FISSION REACTORS, the NEWCLEO CASE
          Speaker: NewCleo Representative (TBA) (NEWCLEO)
        • b) 2.- CAEN JOINING THE CONTRIBUTION OF INDUSTRIAL FIRMS TO SMR DEVELOPMENTS

          CAEN SpA has joined The European Industrial Alliance on Small Modular Reactors (SMRs), which aims to speed up the development and deployment of SMRs in Europe by the early 2030s. SMRs are advanced nuclear reactors that provide low-carbon electricity and heat with enhanced safety and a smaller footprint. The alliance unites industry leaders, financial institutions, researchers, and policymakers to build a strong nuclear supply chain, support SMR projects, and overcome investment barriers. This initiative is a significant step towards integrating nuclear technologies into industrial applications and aiding Europe’s decarbonization efforts.
          https://single-market-economy.ec.europa.eu/industry/industrial-alliances/european-industrial-alliance-small-modular-reactors_en

          Speaker: Ferdinando GIORDANO (CAEN SpA, It)
      • 39
         ENERGY & THE XXI CENTURY: NUCLEAR ENERGIES, TOWARDS HARNESSING NUCLEAR FUSION POWER
        • a) 1.- EXPERIENCE AND ROLES OF A BIG INTERNATIONAL ENERGY COMPANY AIMING TO CONTRIBUTE to DEVELOPING FUSION BASED REACTOR : THE ENI EXAMPLE CASE

          SPEAKER: Francesca FERRAZZA, graduated in Physics from La Sapienza (Roma). She is the Head of the Magnetic Fusion Initiatives unit at Eni S.p.A., Italy’s Energy company, in charge of supporting the development of fusion technology and projects.
          She has a background in semiconductor physics and over thirty years of experience in applied research and R&D management, in particular in the areas of Renewable Energy sources, Environmental and Remediation technologies, biofuels and storage. During the period 2009-2018 her responsibilities were on the company’s Renewable and Environmental R&D portfolio, and between 2018-2022 she took the responsibility of the Company’s R&D Center for Decarbonization and Environment, leading 120+ researchers and many laboratories in Northern Italy.
          She is also member of many national and international scientific committees and working groups. She has published many journal and conference articles and papers, book chapters, and is co- inventor of patents in the field of photovoltaics.
          She is Fellow of the Australian Academy of Science, Technology and Engineering, Board member of DTT (Divertor Tokamak Test), Member of the Organizing Committee of the European Photovoltaic Conference and World Photovoltaic Conference 2022, Member of the Steering Committee of the MIT-MITEI Programme.

          Speaker: Francesca FERRAZZA (ENI)
        • b) 2.- FUSION by MAGNETIC CONFINEMENT REACTORS: DEUTELIO COMPANY as EXAMPLE CASE

          FILIPPO ELIO FUSION INVESTIGATOR at DEUTELIO (POLOMAC), DEUTELIO.COM

          Speaker: Filippo ELIO (tbc) (DEUTELIO Company (CH))
        • c) 3.- LASER INERTIAL FUSION ENERGY ON THE HIGH TECH FIRMS SIDE: MARVEL FUSION as example case

          Dr. Georg KORN, physicist and Chief Technology Officer at Marvel Fusion
          Heike FREUND, Chief Operating Officer (MARVEL FUSION)

          Speakers: Georg KORN (tbc) (MARVEL), Heike FREUND (MARVEL Chief Operating Officer (contact))
      • 10:10
        COFFEE/TEA BREAK
    • HIGH TECH and FUNDAMENTAL SCIENCE SYMPOSIUM: Part 2 on TOWARDS AN AI WORLD ?
      • 40
        1.- A VIEWPOINT TOWARDS A JOINT INDUSTRIAL & ACADEMIA RESEARCH INITIATIVE IN USA
        Speaker: Nhan TRAN (FERMI NATIONAL LAB)
      • 41
        2.- AI IN EUROPE, BOOST IT OR LOOSE IT
        Speaker: TBA
      • 42
        3.- THE AI CHALLENGES FOR PROCESSORS BUILDERS: VIEWPOINT from A HIGH TECH INDUSTRY
        Speaker: NVIDIA or AMD representative
    • CONCLUDING TALK FOR INFIERI2025 SCHOOL IN PISA AND THE RELATED HIGH TECHXFUNDAMENTAL SCIENCE SYMPOSIUM

      SPEAKER: Amalia BALLARINO (TE DEPARTMENT, CERN, CH)

      This talk will conclude both the 8th edition of the INFIERI School series and the 2nd related SYMPOSIUM on HIGH TECH x FUNDAMENTAL RESEARCH.
      Superconductivity, a continuously progressing research field (e.g. HTS), is one of the keywords of this cross-disciplinary school edition. It can be indeed seen as a kind of link between fundamental research topics, e.g. future accelerators, Heliophysics, and Nuclear Fusion, or entering the realm of nanotechnology and the qubit-world with superconducting quantum computers...

      As of 2022: 5 Nobel Prizes in Physics for superconductivity related subjects:
      - Heike Kamerlingh Onnes (1913), "for his investigations on the properties of matter at low temperatures which led, inter alia, to the production of liquid helium".
      - John Bardeen, Leon N. Cooper, and J. Robert Schrieffer (1972), "for their jointly developed theory of superconductivity, usually called the BCS-theory".
      - Leo Esaki, Ivar Giaever, and Brian D. Josephson (1973), "for their experimental discoveries regarding tunneling phenomena in semiconductors and superconductors, respectively" and "for his theoretical predictions of the properties of a supercurrent through a tunnel barrier, in particular those phenomena which are generally known as the Josephson effects".
      - Georg Bednorz and K. Alex Müller (1987), "for their important break-through in the discovery of superconductivity in ceramic materials".
      - Alexei A. Abrikosov, Vitaly L. Ginzburg, and Anthony J. Leggett (2003), "for pioneering contributions to the theory of superconductors and superfluids". (courtesy from Wikipedia).

    • Lunch time
    • POSTERS SESSION

      THIS IS THE LAST BUT NOT THE LEAST SESSION OF THIS SCHOOL EDITION:

      The school attendants will present their poster, i.e the summary of their ongoing research and/or technological activities to all their colleagues as well as a jury of experts.
      The 3 elected as the best ones will get an award and visible recognition.

      Note that:
      1) the posters will be posted over the whole duration of the school in a dedicated place with visibility not only to the school attendants but also any other visitor in the place of exposition of the posters.
      2) When registering to the school, the students will have to indicate the tittle of their poster and send as well a short abstract, as included in the registration form.

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