The new era of particle physics experiments is moving towards new upgrades of present accelerators (LargeHadron Collider atCERN) and the design of high energy (tens/hundreds TeVscale) and very high intensity newparticle accelerators (FCC-ee/hh, EIC, Muon Collider). Cost effective, high efficiency particle detection in a high background and high radiation environment is fundamental to accomplish their physics program. We present a new high granularity resistive Micromegas detector capable to ensure full efficient and stable operation and a good tracking capabilities up to particle fluxes of 10 MHz/cm(2). A summary of the detector performances, measured by mean of high intensity X-ray, muon and pion sources, is reported, together with most recent results from test beam activities.
High granularity resistive Micromegas for high particle rates environment
Di Donato, CMembro del Collaboration Group
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2022-01-01
Abstract
The new era of particle physics experiments is moving towards new upgrades of present accelerators (LargeHadron Collider atCERN) and the design of high energy (tens/hundreds TeVscale) and very high intensity newparticle accelerators (FCC-ee/hh, EIC, Muon Collider). Cost effective, high efficiency particle detection in a high background and high radiation environment is fundamental to accomplish their physics program. We present a new high granularity resistive Micromegas detector capable to ensure full efficient and stable operation and a good tracking capabilities up to particle fluxes of 10 MHz/cm(2). A summary of the detector performances, measured by mean of high intensity X-ray, muon and pion sources, is reported, together with most recent results from test beam activities.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
