Particle physics

  • Presentation
  • CMS
  • FLC (CALICE)
  • AEgIS
  • Members
  • Publications

Particle physics – study of the elementary constituents of matter – is one of IP2I’s main activities. Through the development of a calorimeter for the future linear accelerator, the direct measurement of antihydrogen acceleration due to Earth’s gravitation and the research conducted on the Higgs boson at the LHC, the FLC (CALICE), AEgIS and CMS teams are helping to assemble the puzzle for an understanding of our universe.

– – PAGE UNDER CONSTRUCTION – –

The team’s objective is to develop a high granularity hadronic calorimeter to equip future leptonic gas pedals. The calorimeter proposed for the FLC is entitled Semi-Digital Hadronic Calorimeter (SDHCAL). It uses RPC (resistive plate chamber) type gas detectors as active medium, read by integrated electronics with a granularity of 1cm2. The RPCs are inserted in a compact mechanical structure that acts as an absorber.

This type of calorimeter is used to measure the energy of the hadrons produced during collisions in particle gas pedals: on reaching the hadron calorimeter, they will deposit their energy in it by creating a sheaf of particles (called a jet) whose shape and size make it possible to identify it and measure its energy. The high granularity of the detector is therefore essential to increase its performance.

The team, with its partners, has built the first prototype of this new generation of calorimeters, as well as the associated electronics, and has designed Particle Flow Algorithms (PFA) to improve the reconstruction of the jets resulting from the interactions and to precisely measure their energy. Several tests at CERN have demonstrated the great power of SDHCAL.

The team contributed to the realization of the TOMUVOL detector for volcano tomography. It has developed a new reading scheme for large detectors with a reduced number of electronic channels while maintaining high granularity.

SDHCAL Prototype

Activities

  • Organization of several beam tests of the SDHCAL prototype at CERN (2015, 16, 17 and 18) and exploitation of the data for the study of hadronic showers.
  • Development of the full simulation of the SDHCAL prototype as well as the SDHCAL in ILD and CEPC.
  • Design, construction and operation of the TOMUVOL detector with LPC.
  • Design and realization of large RPC detectors (2 m2) and new reading electronics for module0 of SDHCAL for the ILD ILC project.
  • Participation in the drafting of the ILD-ILC DBD and in the CDR of the CEPC project.
  • Design and realization of the large reading cards for RPC chambers for the muon CMS upgrade project using timing.
  • Design of a new ZDAQ acquisition system
  • Design of a new reading card for gas detectors (PCT/EP2018/053561-EN3062926)
  • Development of PFA algorithms (ArborPFA/APRIL)
  • Development of a new material for RPC detectors to increase their detection rate by a factor of 1000.
  • Design and realization of a detection system for homeland security for the company Smiths Detection based on the patent. Financing by PULSALYS.
  • Co-organization of the CHEF conferences on calorimetry.

 

Interaction of a pion (left) and an electron (right) in SDHCAL

 

Measurement of hadron beam energy at CERN (left: linearity, right: resolution)

Knit Pads for Reading Gas Detectors (PCT/EP2018/053561-EN3062926)

The AEgIS (Antihydrogen Experiment: Gravity, Interferometry, Spectroscopy) team at IP2I is working on the experiment of the same name carried out at CERN. The aim is to make the first direct measurement of the effects of gravitation on antimatter by observing the fall of antihydrogen atoms.

Researchers use antiprotons to produce a beam of antihydrogen atoms that is sent into a device called a Moire deflectometer. Combined with a position detector, this allows them to measure the magnitude of the gravitational interaction between matter (Earth) and antimatter (antihydrogen) to an accuracy of 1%.

The deflectometer is equipped with a grid system that divides the antihydrogen beam into parallel beams, creating a periodic structure whose analysis allows the deflection of the antihydrogen beam during its horizontal flight to be determined. By combining this measurement with the time of flight, we can then measure the gravitational force exerted on the antihydrogen atoms.

The AEgIS collaboration brings together physicists from all over Europe and faces many technical challenges such as the use of very low temperatures (0.1° K), ultra-vacuum (10-11 mbar), high magnetic fields (1 and 5 T), Lyman lasers α to characterize antihydrogen jets, the production of excited positronium, antiprotons, etc…

Our team built the hydrogen ion beam used to characterize the deflectometer’s moirĂ© arrays.

PERMANENTS:

NON-PERMANENTS:

- DOCTORANTS / DOCTORAL STUDENTS:

- CHERCHEURS NON-PERMANENTS / NON-PERMANENT RESEARCHERS:
9220 documents

  • A. Duperrin. W^+W^- cross-section and W mass measurement with the DELPHI detector at LEP. Lake Louis Institute on Electroweak Physics, Feb 1999, Alberta, Canada. pp.12. ⟨in2p3-00002736⟩
  • P. Desgrolard, L. Jenkovszky, F. Paccanoni. Approximate solution of the BFKL equation applicable at HERA. International Conference on Modern Developements in Elementary Particle Physics, Jan 1999, Cairo, Egypt. pp.16. ⟨in2p3-00003446⟩
  • F. Bocage, J. Colin, M. Louvel, G. Auger, Ch.O. Bacri, et al.. Dynamical effects in nuclear collisions in the Fermi energy range : the case of heavy systems. Winter Meeting on Nuclear Physics 37, Jan 1999, Bormio, Italy. pp.241-256. ⟨in2p3-00002509⟩
  • E. Genouin-Duhamel, J.C. Steckmeyer, E. Vient, J. Colin, D. Dominique Durand, et al.. Angular momentum transfer in the Xe + Sn reactions. Winter Meeting on Nuclear Physics 37, Jan 1999, Bormio, Italy. pp.230-240. ⟨in2p3-00002510⟩
  • T. Lefort, D. Cussol, J. Peter, G. Auger, Ch. Bacri, et al.. Measurement of small flows in heavy ion collisions around the balance energy. International Winter Meeting on Nuclear Physics 37, Jan 1999, Bormio, Italy. pp.216-229. ⟨in2p3-00023124⟩
  • O.F. Smidts, A. Dubus, Z. Vidovic, A. Billebaud, M. Fallavier, et al.. Theoretical and experimental study of the correlation between forward and backward electron emissions induced by H^0 or H^+ projectiles incident on carbon foils. International Workshop on Inelastic Ion Surface Collisions 12, Jan 1999, South Padre Island, United States. pp.239-244. ⟨in2p3-00003651⟩
  • P. Martin. Etude des mĂ©canismes de diffusion thermique et de diffusion sous irradiation alpha des terres rares dans les apatites. Nuclear Experiment [nucl-ex]. UniversitĂ© Claude Bernard - Lyon I, 1999. English. ⟨NNT : ⟩. ⟨in2p3-00007622⟩
  • A. Krikeb, A. Martin, J.-M. Richard, T T. Wu. On the Stability Domain of Systems of Three Arbitrary Charges. 1999. ⟨in2p3-00000336⟩
  • M. Houry, C. Theisen, R. Lucas, F. Becker, W. Korten, et al.. \gamma-ray studies of induced fission ^{12}C+^{238}U. International Conference on the Nucleus: New Physics for the New Millennium, Jan 1999, Faure, South Africa. pp.293-295. ⟨in2p3-00013516⟩
  • M-F. Rivet, B. Borderie, J.D. Frankland, Ch.O. Bacri, M. Pârlog, et al.. Multifragmentation of heavy systems around the Fermi energy : compression radial expansion and volume instabilities. Workshop on Nuclear Gross Properties of Nuclei and Nuclear Excitations, Hirschegg 27, Jan 1999, Hirschegg, Austria. pp.293-305. ⟨in2p3-00002507⟩

Powered by HAL logo