Simulated Behavior of CNT Wires Irradiated in the HiRadMat Experimental Line at CERN - Archive ouverte HAL
Communication Dans Un Congrès Année : 2022

Simulated Behavior of CNT Wires Irradiated in the HiRadMat Experimental Line at CERN

Résumé

With the planned increase of luminosity at CERN for HL-LHC and FCC, instruments for beam quality control must meet new challenges. The current wires, made up of plain carbon fibers and gold-plated tungsten would be damaged due to their interactions with the higher luminosity beams. We are currently testing a new and innovative material, with improved performance: carbon nanotube fibers (CNTF). The HiRadMat (High Radiation for Material) experimental line at the output of the SPS is a user facility which can irradiate fix targets up to 440 GeV/c. CNTF with various diameters were irradiated in HiRadMat with different intensities, later imaged with a SEM microscope and tested for their mechanical properties. In addition, simulations have been carried out with the FLUKA particle physics Monte-Carlo code, in order to better understand the mechanisms and assess the energy deposition from protons at 440 GeV/c in those CNTF wires, depending mainly on their diameters and densities. This could lead to a good estimation of the CNTF temperature during irradiation. In this contribution, we first present the HiRadMat experimental setup and then we discuss the results of our FLUKA simulations.
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Dates et versions

hal-03910403 , version 1 (22-12-2022)

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Citer

Alexandre Mariet, Michel Devel, Jean-Emmanuel Groetz, Anastasiia Mikhalchan, Benjamin Moser, et al.. Simulated Behavior of CNT Wires Irradiated in the HiRadMat Experimental Line at CERN. 11th International Beam Instrumentation Conference, Sep 2022, Cracow, Poland. pp.WE3C4, ⟨10.18429/JACoW-IBIC2022-WE3C4⟩. ⟨hal-03910403⟩
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