Past and current collaborations
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Project
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Involved partners
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Discipline
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Objective
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Results
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Complementarity and added value of the consortium
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LIA FVPPL France-Vietnam
“Nuclear Physics, Particle Physics and grid computing”
2010-2013
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LAPTh, LPSC, LAPP, CEA IRFU, LPC-C, LPTHE, IPN, LPNHE, INST Hanoi, IOP Hanoi, Univ. of Science Ho Chi
Minh and Hanoi...
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Nuclear Physics, Particle Physics, Grid computing and applications
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Collaboration with and training of Vietnamese physicists in the mentioned fields
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The project has just begun
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Attract young gifted scientists from Vietnam in the field of nuclear and particle physics to work in European collaborations
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PICS “Precision calculations for the LHC”
2007-2009
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LAPTh, University of Science in Ho Chi
Minh, Institute of Physics in Hanoi
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Particle physics, LHC physics
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Precision calculations of LHC processes
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Tools for precision calculations
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Attract young gifted scientists from Vietnam to develop computer based tools for LHC physics
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LIA FJPPL “Event generators and Higgs Physics at LHC”
Renewed each year since 2007
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LAPTh, LAPP, KEK (Tsukuba-shi)
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Particle physics
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Physics at LHC
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Tools for LHC analyses
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Exchange of methods for computing LHC processes
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ATLAS upgrade
2010-
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LAPP, LPSC, LPHE, LAL, CPPM, foreign labs
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Particle Physics, Instrumentation
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Inner detector for higher luminosity
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New inner detector
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3D Electronics and mechanical design
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CLIC final focus stabilization. Financed by EuroTeV, EUROTeV, EUCARD (FP6 and 7), CERN French exceptional contribution, CNRS. 2004-
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LAPP, SYMME
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Accelerator physics, mechanics, automatism
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Stabilize the final focus CLIC magnets to 0.3 nanometres
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- Extensive study of existing sensors.
- Mechanical simulation of the process.
- Feedback algorithms development.
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Develop common infrastructure for sub-nanometre vibration control.
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New collaboration on CLIC
2010-
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LAPP, LPSC, CEA,
LAL, CERN
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Accelerator, Physics and Technology
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R&D for future machines beam diagnostics
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Develop beam diagnostics
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Accelerator and mechanics skills at LPSC and electronics expertise at LAPP
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New collaboration on LHC Accelerator
2010-
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LPSC, INAC-SBT,
CERN
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Accelerator, Physics and Technology
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Enhance luminosity for LHC
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High field and high performances crab cavity
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Skills, equipment and infrastructures for RF at LPSC and for cryogenics at SBT
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Data modelling and interpretation
2008-2011
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LAPP, LAPTh, LPSC
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Particle and astroparticle Physics, Cosmology, Theoretical Physics
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A compléter
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A compléter
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Synergy between experimentalists and theorists
ANR DMTools
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AMS
2000-
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LAPP, LPSC
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Astroparticle and Cosmology
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Detect anti-matter and dark matter in space
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AMS-I had measured the first electron/positron measurements of cosmic rays spectra in space, setting up among other results the best upper limits at the time on the antimatter-to-matter ratio.
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Develop a common data analysis after the AMS-II flight foreseen in spring 2011
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CALICE, financed by CNRS, EUDET(FP6 and 7), AIDA
2004-
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LAPP, LPSC, LAL,
LLR, IPNL, 20 foreign labs
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Particle Physics, Instrumentation,
Data Analysis,
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R&D for the future calorimeters to equip ILC and CLIC experiments
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- Mechanical design for the ECAL and HCAl sub-detectors.
- Read-out electronics development.
- R&D on MicroMegas chambers
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Develop large prototypes
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PICS “Low Energy Positron Propagation in the Galactic Center and origin of the 511 keV line”
2009-2011
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LAPTh, Oxford University
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Astrophysics
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Low energy positron propagation in the Galactic center and origin of the 511 keV line
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A compléter
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A compléter
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NEMO3
Année du projet
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LSM,
A compléter
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Neutrino physics
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A compléter
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A compléter
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A compléter
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EURECA
Année du projet
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LSM
A compléter
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Dark Matter
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A compléter
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A compléter
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A compléter
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MIMAC
Année du projet
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LSM, LPSC
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Astroparticle and Cosmology
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A compléter
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A compléter
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A compléter
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CEPIT
Année du projet
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LPSC, LNCMI
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Accelerator and Ion Source
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A compléter
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A compléter
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A compléter
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GUINEVERE
Année du projet
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LPSC,
A compléter
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Nuclear Reactors
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A compléter
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A compléter
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A compléter
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ANR « ToolsDMColl »
2007-2010
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LAPTh, LAPP, LPSC, IAP
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Theory and Experiment at Colliders and in Astrophysics
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Development of Tools and Analyses of Dark Matter
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Development of micrOMEGAs, for direct and indirect detection. Development of SloopS for one-loop precision for supersymétrie. Applications and analyses
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The development of tools for astroparticle and particle physics requires close collaboration between members of these two communities. It was also important to have experimentalists and theorists work together for such a projet
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ANR SUSYPheno
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LPSC, IPNL
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Theory at Colliders and in Astroparticle physics
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Precision calculations for new physics
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QCD Resummations, MC@NLO, new models
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Expertise on QCD and newphysics aspects
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ANR « ConformalSYM »
2006-2010
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LAPTh,
LPT Orsay, SUBATECH Nantes
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Mathematical Physics, Superconformal gauge theories
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Find new ways of calculating scattering amplitudes
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Discovery of a dual conformal symmetry, discovery of a Yangian symmetry for scattering amplitudes in SYM N=4
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QCD experts meet N=4 SYM experts
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GDRI « Automatization of calculations in particles physics »
France/Japan/Russia
2003-2010
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LAPTh, LAPP, LPSC, LPTA, LPTO, LAL
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Particle and astroparticle physics
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Powerful Codes and MC as well as their usage for High energy physics
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Development of GRACE, CompHEP, CalcHEP, SloopS, micrOMEGAs
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Theorists and experts on model building and renormalisation meet code and MC developpers
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GRANIT
Since 2005,
collaboration since 2000
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ILL, LPSC
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Neutron particle physics
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To study gravity at short distances
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Discovery and study of quantum states of neutron in gravity field; new generation precision gravitational spectrometer
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ILL: experience in UCN physics;
LPSC: studies of physics beyond standard model
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CRYOLOOP program
2004
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SBT, CERN, Institut Neel
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Thermohydraulics
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To examine basic phenomena taking place in the two phase superfluid flows
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A better characterisation of the superfluid diphasic heliu flow
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CERN: “industrial” aspects
SBT: design, installation and characterisation of a two phase superfluid flow
Institut Neel: advanced characterization of the flow
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Accord CERN – CEA
2006
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SBT, CERN
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Refrigeration
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Study of the process of 1.8 K refrigeration units
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Specifications of the refrigerators
Quality tests on the sucooling heat exhangers
Participation to the installation, commissioning
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SBT was totally involved in superfluid components
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ANR CHEOPS project
Running
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SBT, Air Liquide, Gipsa Lab
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Control system, refrigeration
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To develop an advanced control system able to deal with transient conditions
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Improvement of the control system of large cryoplants
2 patents
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Gipsa Lab: fundamental aspects
SBT: implementation of the code and tests
Air Liquide: industrial aspects
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