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EASISCHOOL 2
EASITrain-P1-WP6-D6.4
EDMS 2041947
Date: 28/10/2019
Grant Agreement 764879 PUBLIC 1 / 16
Grant Agreement No 764879
EASITRAIN European Advanced Superconductivity Innovation & Training
DELIVERABLE D6.4
EASISCHOOL 2
Document identifier: EASITrain-P1-WP6-D6.4
EDMS 2041947
Due date: October, 31st, 2019
Report release date: October, 31st, 2019
Work package: WP6 Training
Lead beneficiary: CEA
Document status: RELEASED (V1.0)
Domain: Project management
Keywords: Training, EASISchool, cryogenics
Abstract:
This document gives evidence of the successfully performed EASISchool 2 by providing a summary of the
event. EASISchool 2 is a one week lasting, intense autumn school, federating national and EC research projects.
EASISchool 2 focused on the applications of cryogenics, on cryogenics fundamentals, industrial & lifecycle
applications, innovation management, technological competence leveraging. All beneficiaries and partners have
been invited to actively contribute to the definition of this training event. The agenda and contributions can be
consulted at https://indico.cern.ch/event/792215/.
The EASISchool 2 took place from the 30th of September to the 4th of October 2019 in two sites Saclay-
NEUROSPIN and Grenoble-MINATEC, France. The EASISchool 2 also contributed to the travelling exhibition
of the “Code of the Universe” (http://codeoftheuniverse.web.cern.ch) installed on the Grenoble-MINATEC site
during the EASISChool 2 period. This exhibition open to public from mid-September to mid-November 2019
presents the recent discoveries in Science and the associated technical developments in cryogenics and
superconductivity. The exhibition was used also during the French “Fête de la Science” at Grenoble as an
animation on cryogenics and superconductivity developments.
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Date: 28/10/2019
Grant Agreement 764879 PUBLIC 2 / 16
Copyright notice:
Information provided with this document is subject to the H2020 EASITrain – European Advanced
Superconductivity Innovation and Training grant agreement. This Marie Skłodowska-Curie Action
(MSCA) Innovative Training Network (ITN) receives funding from the European Union’s H2020
Framework Programme under grant agreement no. 764879.
Delivery Slip
Name Partner Date
Authored by Bertrand Baudouy, François Millet CEA 28 Oct. 2019
Edited by Coralie Hunsicker CERN 29 Oct. 2019
Reviewed by Michael Benedikt, Johannes Gutleber CERN 30. Oct. 2019
Approved by Michael Benedikt CERN 31. Oct. 2019
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1. AGENDA
The EASISchool 2 (https://indico.cern.ch/event/792215/) took place from the 30th of September to the 4th of
October 2019 in two CEA sites, Saclay and Grenoble, France at the Neurospin Amphitheater (CEA-
Saclay) and the MINATEC conference center (CEA-Grenoble). The school was held at Saclay the first two
days and at Grenoble the rest of the week after a train transfer on Wednesday October 2nd.
The EASISchool2 was focussed on the applications of the cryogenic technologies developed in the industries
and in academia. It aimed at presenting to the ESRs and other participants as much as possible applications and
domains where and how cryogenics is used and giving a large exposure of the ESRs to several companies,
partners or not of the EASITrain project.
It featured also social networking events, satellite events (visit to Neurospin – Neuroscience laboratory at
Saclay, CEA magnet and cryogenic labs at Saclay and Grenoble, ESRF – European Synchrotron Radiation
Facility at Grenoble, EMFL/LNCMI – European Magnet Field Laboratory / Laboratoire National des Champs
Magnétiques Intenses at Grenoble, Air Liquide Advanced Technologies factory at Grenoble) as well as
contributions to the French “Fête de la Science 2019” at Grenoble around the travelling exhibition “The Code
of the Universe”. These latter events involving the ESR4 from CEA-Grenoble were a three-day animation
presenting technical developments in cryogenics and superconductivity to primary and high schools during the
first two days and to public on the last day. A public conference in French language (“La cryogénie au service
des découvertes scientifiques”) concluded this public animation.
The programme of the EASISchool 2 is available on the Indico page: https://indico.cern.ch/event/792215/. This
site has also all training material available publicly on-line. The material will remain available beyond the
project period and creates thus lasting impact beyond the project period.
The first two days at Saclay (September 30 – October 1st 2019) focused on the following lectures and visits:
- Cryo-magnetism for Neuroscicence
- Cryo-magnetism for Magnetic Resonance Imaging
- Iseult magnet cryogenics
- Visit of the world record magnetic field MRI magnet, Iseult, at the Neuropsin Laboratory
- Superconducting Radio Frequency accelerators cavities
- Cryogenics for the European XFEL (the world largest X-ray Free Electron Laser)
- Cryogenics for accelerator cavities
- Cryogenics for the European Spallation Source (ESS)
- Visit of the Accelerator Laboratories at CEA-Saclay
- Cryogenics for the Large Hadron Collider (LHC)
- Accelerator magnets
- Cryogenics for detector magnets
- Cryogenics for the International Thermonuclear Reactor (ITER)
- Cryogenic Pulsating heat pipes
- Cryogenics at Oxford Instrument
- Cryogenics for Liquefied Natural Gas (LNG)
- Superconducting magnet for space
- Levitation technology
- Visit of the Cryo-Magnetism Laboratories at CEA-Saclay
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The three days at Grenoble (October 3rd to October 4th 2019) focused on the following lectures and visits:
- Visit of the European Synchrotron Radiation Facility (ESRF) at Grenoble
- Visit of the European Magnetic Field Laboratory / Laboratoire National des Champs Magnétiques
Intenses (EMFL/LNCMI) at Grenoble
- Cryogenics for space
- Space mission
- Helium Dilution coolers
- Magnetic Refrigeration coolers
- Turbo-Brayton coolers for space
- Pulse-tube coolers for Earth Observation & Science
- Cryogenic integration in satellites
- Cryogenic motors and launch pads
- Visit of the Air Liquide Advanced Technologies factory (ALaT is the Air Liquide business unit
specialized in cryogenics and gas engineering) at Grenoble
- Helium refrigeration and liquefaction
- Cryogenic storage and distribution
- Accidental heat flux and safety design
- Hydrogen production and distribution
- Turbo-Brayton fridges
- Management of Research and Innovation
- Visit of the Cryogenics Laboratories at CEA-Grenoble
Distinguished experts in their field from all over Europe were invited to give lectures. Half of these experts (in
purple in the following lecturer list) came from leading industries in cryogenics, MRI and scientific
instrumentation:
Professor Roberto Battiston, former president of the Italia Space Agency, Experimental physicist, specialized
in the field of fundamental physics and elementary particles, is one of the leading experts on cosmic rays. Dr.
Philippe Lebrun, former head of the cryogenics at CERN, father of the LHC cryogenic system. Dr. Pierre
Crespi (Air Liquide), head of the Innovation Department at Air Liquide advanced Technolgies (ALaT). Dr.
Vincent Gras (Neuropsin Lab – CEA Saclay), Dr. Lionel Quettier (CEA Saclay), Dr. Philippe Brédy (CEA-
Saclay), Dr. Arno Godeke (VARIAN), Dr. Enrico Cenni (CEA-SAclay), Dr. Ambra Gresele (Zanon), Dr. Patxi
Duthil (Institut de Physique Nucléaire d‘Orsay - CNRS), Dr. Mikael Pekeler (Research Instruments), Dr.
Etienne Rochepault (CEA-Saclay), Dr. Caroline Favre (CERN), Dr. Ryuji Maekawa (ITER), Dr. Thibault
Lecrevisse (CEA-Saclay), Dr. Maria Barba (CEA-Saclay), Dr. Ziad Melhem (Oxford Instruments), Benoit
Morel (GTT), Pr. Loic Quéval (Centrale-Supélec), Dr. Duband (CEA-Grenoble), head of the Department of
Low Temperature System Dr. Thierry Tirolien (European Space Agency), Dr. Gérard Vermeulen, (Institut Néel
- CNRS), Dr. Jean-Marc Duval (CEA-Grenoble), Dr. Julien Tanchon (Absolut system), Dr. Wiertz (Air
Liquide), Dr. Emmanuel Gavila (Thales Alenia Space), Dr. Davide Duri (Ariane Group), Dr. Yannick Fabre
(Air Liquide), Stéphane Duval (Air Liquide), Eric Ercolani (CEA-Grenoble), Pierre Barjhoux (Air Liquide),
Cecile Gondrand (Air Liquide).
The detailed timetable is available in the Annex.
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2. QUALITATIVE SUMMARY
2.1 DAYS 1 & 2
The lectures of the first two days of the school were organized in thematic sessions with an introductory lecture
similar to the plenary sessions in conference. The first theme addressed was the Medical Applications. The
introductory talk was given by Vincent Gras from the Neuropsin Laboratory (CEA-Saclay) on the importance
of cryo-magnetism for the neurosciences. The following lecture, given by Lionel Quettier (CEA-Saclay), gave
practical example of cryo-magnetism for this domain of science. He presented the world record magnetic field
MRI magnet Iseult developed at Saclay. Philippe Brédy (CEA-Saclay) presented in depth the secrets of the
superfluid helium cryogenics requested by this high field magnet in another lecture. Finally Arno Godeke from
the VARIAN Company presented all the interest on cryogenics for the development of proton therapy systems.
The first morning ended by the visit of the Iseult magnet and its associated cryogenic system at the Neuropsin
laboratory.
The afternoon of Day 1 was devoted to the Accelerator Applications. Enrico Cenni for CEA-Saclay gave a
complete introduction of the technical challenges of Superconducting Radio-Frequency Cavities and the
importance of cryogenics. Ambra Gresele from ZANON Company in Italy presented the state-of the-art
technology of SRF cavity developed for the project XFEL in this high-tech company. Patxi Duthil from Institut
de Physique Nucléaire d’Orsay presented an exhaustive talk on the different challenges in SRF cavities
cryogenics. Mikael Pekeler from the Research Instruments Company in Germany gave a demonstrative example
of all the technology developed for the construction of the SFR cavity with the example of the project ESS. This
session was ended by the visit of several laboratories at CEA-Saclay where SFR cavities are developed and
constructed for several international projects such as XFEL, ESS, and SARAF…
The first theme of Day 2 concerned Superconducting Magnets at large scale. The introductory talk was given
by Philippe Lebrun on the Large Hardron Collider cryogenics. This lecture included a complete presentation on
the design, construction, operation and upgrade of the cryogenic systems of the largest high energy physics
research machine in the world. This lecture was followed by a detailed and didactic presentation on accelerator
magnets by Étienne Rochepault (CEA-Saclay). To complete the talk on the LHC, Caroline Fabre from CERN
presented the cryogenic issues for the two largest detector experiments at CERN: ATLAS and CMS. The
cryogenics challenges of another gigantic project was discussed with the presentation of Ryuji Maekawa (ITER)
with his talk on the cryogenic process simulator development at ITER. The Superconducting Magnets theme
was concluded by two R&D presentations on the development of High Temperature Superconductors (HTS)
magnets by Thibault Lécrvisse (CEA-Saclay) and Pulsating Heat Pipes (PHP), a highly efficient heat pipe that
could be very promising for cryo-cooling by Maria Barba from CEA-Saclay.
The last theme of the Day 2 was dedicated to different, innovative and future applications in cryogenics. The
first presentation was given by Ziad Melhem from Oxford Instruments which is one of the most innovative
company for the last 30 years. He presented the numerous innovations that company developed during all these
years with a final focus on the very low temperature cooling for quantum science. The cryogenics for the
transport of Liquefied Natural Gas was presented by Benoit Morel from GTT, one of the leaders in the
innovative design and construction of LNG reservoirs for ships and ground installations. Roberto Battistion
brought to the audience the interest for superconducting magnet and the associated cryogenics for traveling and
exploration missions in deep space. Another inspiring and didactic presentation was given by Loic Quéval on
magnetic levitation and especially on the maglev technologies. The first part of the school in Saclay ended by
the visit of the superconducting magnet and cryogenics laboratory of CEA-Saclay.
2.2 DAYS 3 TO 5
After a train transfer from Paris to Grenoble, the school resumed with two visits on the Day 3. The ESRF was
first visited followed by the Grenoble National High Magnetic Field Laboratory.
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Day 4 theme was devoted to the space and aerospace applications of cryogenics. Lionel Duband (CEA
Grenoble) started the session in giving an exhaustive and informative talk about cryogenic cooling technologies
in space though numerous projects CEA Grenoble has been involved into. Following this introduction talk,
Thierry Tirolien (ESA) presented the different challenges of cryogenic space missions with the examples of the
Planck detector and the MeteoSat satellite. He concluded his talk by the future trends in this lively domain.
Gérard Vermeulen from Institut Néel presented a didactic talk on the different cycles for 3He-4He dilution
refrigeration in space with details on the open and closed cycle cases and the results on an anti-gravity
orientation. Another cooling technique which is a good candidate for space cryogenic cooling technique which
is Adiabatic Demagnetization, was presented by Jean-Marc Duval (CEA Grenoble). He presented the state-of-
the-art of this technique and the different key components to construct an adiabatic demagnetization refrigerator
for space cryogenic system. The last presentation of the morning was dedicated to the Turbo-Brayton technology
for space applications. After a review of the general concept and the thermodynamic cycles of these machines,
Julien Tanchon (Absolut System) presented different technologies implemented in satellites.
The first talk of the afternoon was devoted to Pulse Tube coolers for Earth observation and science. The talk
was given by Thierry Wiertz (Air Liquide Advanced Technologies) where he demonstrated the complexity of
space cryocoolers showing the importance of the efficiency optimization. Another important subject, the
cryogenic integration in satellites, was developed by Emmanuel Gavila from Thales Alenia Space in his
presentation. He showed in his talk all the constraints due to the launch, the mission and the working conditions
that have to be tackled in the design of space cryocoolers and integration works. Davide Duri from Ariane Group
presented the last talk of the session on Cryogenic motors and launch pads where he detailed the cryogenic
technology involved in all the steps before an Ariane rocket launch. The Day 3 ended with the visit of Air
Liquide Advanced Technologies. The attendants were invited to a tour of the extreme space application clean
room, the turbo-expanders test facility and the large Helium liquefactor/refrigerator/Cryolines construction
workshop. The fourth day of the school ended with a dinner at Caffe Forte in downtown Grenoble. Before the
diner and after the afternoon visits, all the attendants of the school went up to the Bastille summit with one of
the first existing urban cable cars in the world, to enjoy the sunset scenery of the Grenoble valley and the
surrounding mountains.
Figure 1- EASISchool 2 participants in the Grenoble cable cars on the way to the Bastille summit
EASISCHOOL 2
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Figure 2: EASISchool 2 participants at the Grenoble part at the top of the beautiful site of the Bastille summit
The last day of EASISchool2 was dedicated to the large-scale refrigeration and liquefaction domains with a
strong involvement of Air Liquide Advanced Technologies (ALaT), the EASITrain industrial partner
specialized in cryogenics and gas engineering. This session started with a talk on helium refrigeration and
liquefaction given by Yannick Fabre from ALaT showing the complexity of such systems. This presentation
was followed by Stéphane Duval’s talk also from ALaT on cryogenic storage and distribution. Safety in
cryogenics was addressed by Eric Ercolani from CEA Grenoble with a useful and demonstrative presentation.
The last talk of the morning was focussed on the production and distribution of hydrogen by Pierre Barjhoux
(ALaT). The presentation was rather exhaustive from the physical singularities of hydrogen to its plant
installations.
The first talk of the afternoon concerned the technology of turbo-Brayton systems developed by Air Liquide.
The talk was given by Cécile Gondrand who detailed the specificities of such cooling system and its applications
for HTS cabling or the reliquefaction of the gas boil-off in LNG industry (fleet and terminal). The last talk of
the day was given by Pierre Crespi, head of the Innovation Department of Air Liquide advanced Technologies
who presented with enthusiasm his Air Liquide and personal experience in the process of research and
innovation with several examples. Among these experience, the success story of the Turbo-Brayton
development initiated by Air Liquide in the 2000’s years and now series product addressing the market of the
LNG reliquefaction plants is a very good illustration of the innovation process in technology from an exploratory
research to the market development.
The teaching part of the school ended with an interactive quiz with all the participants. Finally the school ended
with the visits of the Cryogenic Laboratories of CEA-Grenoble.
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3. ATTENDANCE LIST
The EASISCHOOL 2 was open to the ESRs and also to external students, scientists, engineers and researchers.
A total of 71 participants and speakers were registered on the school website (see Annex for details) and
additional local participants were welcome on a day basis. The total number of participants per day was about
40 persons composed of 14 EASITrain ESRs and 20 external attendants (plus the speakers and chairs) at CEA
Saclay and 13 EASITrain ESRs and 15 external attendants (plus the speakers and chairs) at CEA Grenoble.
Title Full name
ESR1 Dorothea Fonnesu
ESR2 Johannes Gnilsen
ESR3 Andrea Vitrano
ESR4 Jakub Tkaczuk
ESR5 Linn Kretzschmar*
ESR6 Aisha Saba
ESR8 Dmitry Tikhonov
ESR9 Jean-François Croteau
ESR10 Vanessa Garcia Diaz
ESR11 Sofiya Savelyeva
ESR12 Alice Moros
ESR13 Ortino Mattia
ESR14 Stewart Leith
ESR15 Maxime Podeur
External Attendant Sandra Varin
External Attendant Elisa Capelli
External Attendant Eliana Motta
External Attendant Richard Walker
External Attendant Vincent Morin
External Attendant Clément Hilaire*
External student Romain Boy*
External Attendant Françoise Rondeaux*
External Attendant Juliette Plouin*
External Attendant François-Paul Juster*
External Attendant Gilles Authelet*
External Attendant Hervé Allain*
External Attendant Roser Vallcorba*
External Attendant Alexis Amadon*
External Attendant Bruno Pinho Meneses*
External Attendant Cécile Lerman*
External Attendant Lionel Quettier*
External Attendant Séverine Candau
External Attendant Sébastien Somson*
External student Antoine Caisson*
External Attendant Christian Jeandey*
External Attendant Yvan Charles*
External student Jeyathasan Viswanathan*
External Attendant Julien Jousset*
External Attendant Yahya Kaddouri*
External Attendant Edouard Brugière*
External Attendant Morgane Bellec*
External Attendant Michel Belakhovsky*
External Attendant Coraline Dalibot*
External student Xuan-Huy Pham*
*Attendance only in the Saclay part of the school.
*Attendance only in the Grenoble part of the school.
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4. VISITS
In addition to the academic and industrial training program, the school proposed a number of facilities, labs and
industries visits:
Visits of the Iseult magnet site at CEA Saclay Neurospin laboratory (Day 1)
The first morning ended by the visit of the Iseult magnet at the Neuropsin laboratory. The Iseult magnet reached
a nominal magnetic field of 11.7 teslas (T) on July 18, 2019. This is a world record for a whole-body magnetic
resonance imager (MRI) magnet, the culmination of years of R&D and at the forefront of innovation in the field
of superconducting magnets.
Figure 3: The Iseult magnet installed in its final location at the CEA Saclay Neurospin laboratory.
Visit of the CEA Saclay Accelerator laboratories (Day 1)
The attendants of the school visited the accelerator research and development facility of the CEA Saclay. Three
visit points were proposed to the visit: the Fair and Betsi sources, the ESS project clean rooms and the cavity
chemistry treatment facilities.
Figure 4: The ESS cavity assembling hall at the CEA Saclay
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Visit of the CEA Saclay Cryo-magnetism laboratories (Day 2)
In this visit, the accelerator magnet development laboratory, the JT60-SA magnet test facility with its enormous
cryostat for testing the superconducting toroidal field coils for the JT60-SA project, the detector magnet
laboratory and the R&D cryogenics laboratory.
Visit of the European Synchrotron Radiation Facility at Grenoble (Day 3)
After an introductory part on the basic X-ray physics that is done at the ESRF, European research facility
supported by 22 countries, the attendants were brought to visit the overall facility and some beamlines such as
a micro-diffraction imaging beamline.
Visit of the National High Magnetic Field Laboratory (Day 3)
Three points were visited at the Grenoble High Field Magnet Lab, member of the European Magnet Field
Laboratory (EMFL): The resistive magnets facilities, the high temperature superconducting research and
development facility and the site of the future 45T hybrid magnet with its cryogenic system under installation.
Visit of the Air Liquide Advanced technologies factory (Day 4)
After a brief introduction on the Air Liquide Advanced Technologies activities (space, science, industry), the
attendants were invited to a tour of the extreme space application clean room, the turbo-expanders test facility
and the large Helium liquefactor/refrigerator/cryoline construction workshop.
Figure 5: The turbo-expander test bench at Air Liquide Advanced Technologies factory
Visit of the CEA Grenoble cryogenic laboratories (Day 5)
Three points were visited at the Department of the Low Temperature Systems at CEA Grenoble: the space
cryogenic cooling devices and its ultra clean integration room, the thermometry testing facility for the ITER
project and the solid hydrogen targets for laser-matter interaction studies prior to application in proton-therapy.
5. ECTS POINTS
The training offered during the EASISchool2 could grant ECTS Points to all the attendants for the lectures given
on cryogenics. Certificates will be issued on request by the Université Grenoble Alpes (UGA).
The accreditation process is with the ESRs in cooperation with their university supervisors.
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6. COMMUNICATION AND PUBLIC ENGAGEMENT
6.1 ANNOUCEMENTS
The school was announced throughout 2019 via various channels:
a) The EASITrain website announced the event on its main page at https://easitrain.web.cern.ch/
b) Each beneficiary and partner received the announcements and were invited to relay the event in-house via
mailing lists.
c) British Cryogenics Council via their web site at https://bcryo.org.uk/easischool-2-cryogenics-registration-
open
d) The Cryogenic Society of Europe via their web site at
https://www.cryoeurope.org/news/announcements/registration-open-for-the-cryo-easitrain-school-2.html
e) The Cryogenic Society of America via their web site at https://cryogenicsociety.org/?s=EasiSchool
f) At local levels via various scientific websites and Newsletters (GIANT, LANEF, CEA-DRF, CEA-IRIG,
CEA-DSBT, …) such as http://www.grenoble-lanef.fr/spip.php?article203 , http://www.d-
sbt.fr/en/Pages/EASISchool.aspx,
g) Posters were distributed at the 2019 International Cryocooler Conference and the Cryogenic Engineering
Conference
Figure 6: Poster for the EASISchool2 announcement.
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6.2 OUTREACH AND PUBLIC ENGAGEMENT The Neurospin laboratory at Saclay and the MINATEC conference center at Grenoble supported the
EASISchool 2 as cryogenics is one of the current technologies in their activities. The “Laboratoire d’Alliances
en Nanosciences et Energies du Futur” (LANEF), the French ‘Laboratoire d’Excellence’ that associates
fundamental research labs (UGA, CEA, CNRS) based in Grenoble, also supported the EASISchool 2 with the
common objectives shared by these labs and their R&D partners to address challenges in cryogenics (see for
details : http://www.grenoble-lanef.fr/spip.php?rubrique26).
The EASISchool 2 featured also satellite public events with the presence of the travelling exhibition “The Code
of the Universe” during the school period. Present and open to public at the MINATEC site this autumn from
the 18th of September 2019 to the 18th of November 2019 at Grenoble, the exhibition "The Code of the
Universe", series of photographs and images, offers a unique and original opportunity to discover the links
between basic research and technological innovations including superconductivity and cryogenics.
This temporary exhibition travels across Europe to share the major discoveries in physics that allow us to better
understand the Universe around us. This exhibition presents, at the same time, the scientific tools and the new
products and applications that flow from them and that shape our daily life. The photographs illustrate the most
diverse aspects of this scientific research: from questioning to the construction of scientific instruments and the
development of new technologies. Fruit of human curiosity, all this work is based on the ingenuity and creativity
of the women and men involved in this international research.
Around the exhibition, public animations involving the ESR4 and his supervisor from CEA-Grenoble were
organised as EASITrain contributions to the French “Fête de la Science 2019” from the 10th to the 12th of
October 2019 with more than 3000 visitors. The objectives of the EASITrain animation were to introduce
research in science and to present technical developments in cryogenics and superconductivity to primary and
high schools during the first two days and to all public on the last day. The animation proposed guided visits of
the exhibition “The Code of the Universe” and an experimental illustration of high temperature superconductor
properties at cryogenic temperatures. A public conference in French language (“La cryogénie au service des
découvertes scientifiques”) concluded this public animation.
Figure 7: EASITrain animation around the exhibition “The Code of the Universe” at the French “Fête de la Science
2019”on the 10th and 11th of October 2019. Jakub Tkaczuk (ESR4) initiated more than 400 students from primary and
high schools to discover the superconducting and cryogenic applications.
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Figure 8: Jakub Tkaczuk (ESR4) gave a public conference on cryogenics for scientific discoveries during the “Fête de la
Science 2019” at Grenoble on the 12th of October 2019.
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7. ANNEX - Full timetable of the EASISchool 2
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- List of registered EASISchool2 participants and speakers
Name Affiliation
Aisha Saba CNR-SPIN
Alexis Amadon CEA / NeuroSpin
Alice Moros TU Wien
Ambra Gresele ZANON
Andrea Vitrano CEA Saclay
Antoine Caisson CEA Saclay
Arno Godeke Varian Medical Systems Particle Therapy GmbH
Benoît MOREL GTT
Bertrand Baudouy CEA Saclay
Bruno Pinho Meneses CEA Saclay
Caroline Fabre CERN
Cecile Gondrand Air Liquide Advanced Technologies
Cécile Lerman CEA/DRF/Institut Joliot/NeuroSpin
Clément HILAIRE CEA Saclay
Coraline Dalibot UKRI STFC RAL SPACE
Davide Duri ArianeGroup
Dmitry Tikhonov Helmholtz-Zentrum Berlin für Materialien und Energie
Dorothea Fonnesu CERN
Edouard BRUGIERE Gaz Transport & Technigaz
Eliana Motta ENERTIME
Elisa Capelli ENEA, Frascati
Enrico Cenni CEA Saclay
Eric Ercolani CEA Grenoble
Eric Patxi DUTHIL CNRS/IN2P3/IPNO
Etienne Rochepault Université Paris-Saclay (FR)
Francois Millet CEA Grenoble
François-Paul Juster CEA Saclay
Gerard Vermeulen Institut Néel (CNRS)
Gilles AUTHELET CEA Saclay
Ivan Charles CEA Grenoble
Jakub Tkaczuk CEA Grenoble
Jean Francois Croteau I-Cube Research
Jeyathasan Viswanathan CEA Grenoble
Johannes Gnilsen TU Wien
Julia Mokdad Phd Student
Julien JOUSSET LNCMI-CNRS
JULIEN TANCHON Absolut System
Juliette Plouin CEA Saclay
Linn Kretzschmar WU Vienna
Lionel Duband CEA Grenoble
Lionel QUETTIER CEA Saclay
Loic Queval GeePs, Centrale-Supelec, Univ. Paris-Saclay
Maria Asuncion Barba Higueras CEA Saclay
Mattia Ortino TU Wien
Maxime Podeur University of Stuttgart
EASISCHOOL 2
EASITrain-P1-WP6-D6.4
EDMS 2041947
Date: 28/10/2019
Grant Agreement 764879 PUBLIC 16 / 16
Michael Pekeler RI Research Instruments GmbH
Morgane Bellec CEA/IRIG/DSBT
Philippe Lebrun JUAS
Pierre Barjhoux Air Liquide Advanced Technologies
Pierre Crespi Air Liquide advanced Technologies
Richard Walker CCFE
Roberto Battiston Dipartimento di Fisica, Università di Trento
Romain Boy CEA Saclay
Roser Vallcorba CEA Saclay
Ryuji MAEKAWA ITER
Sandra Varin CEA Grenoble
Sébastien TRIQUENEAUX CNRS
Séverine CANDAU CEA Saclay
Sofiya Savelyeva Technische Universität Dresden
Somson Sebastien CEA Saclay
Stewart Leith Univ. Siegen
Sulayman Shoala CEA Grenoble
Thibault LECREVISSE CEA-Saclay
Thierry Tirolien ESA
Vanessa Garcia LNL-INFN
Vincent Gras CEA/DRF/Joliot/Neurospin
Vincent Morin CEA Grenoble
Xuan-Huy PHAM CEA-Grenoble
Yahya KADDOURI Gaz Transport & Technigaz
Yannick FABRE Air Liquide Advanced Technologies