A: Silicon sensors with high timing resolution can help particle identification in the International Linear Collider (ILC). We are studying Low Gain Avalanche Detectors (LGADs) as a sensor with high timing resolution. As a step to develop LGADs we are now characterizing Avalanche Photo Diodes (APDs), which have similar multiplication structure as LGADs. Particles from radioisotopes are used for studies in this paper.
K: Photon detectors for UV, visible and IR photons (solid-state); Photon detectors for UV, visible and IR photons (solid-state) (PIN diodes, APDs, Si-PMTs, G-APDs, CCDs, EBCCDs, EMCCDs, CMOS imagers, etc); Instrumentation and methods for time-of-flight (TOF) spectroscopy A X P : 2002.06780
Silicon pad sensors with novel functions of higher timing resolution (LGAD: Low Gain Avalanche Detector) and higher position resolution (PSD: Position Sensitive Detector) are studied for an application to Silicon-Tungsten electromagnetic calorimeter for a detector of the International Linear Collider (ILC).Prototype sensors are fabricated, equipped with dedicated ASICs (Application-Specific Integrated Circuits) and tested with a positron beam as well as a radioisotope. The first results of the measurements of timing resolution with LGADs and position reconstruction with PSDs are reported.
The CALICE Semi-Digital Hadronic CALorimeter (SDHCAL) is the
first technological prototype in a family of high-granularity
calorimeters developed by the CALICE Collaboration to equip the
experiments of future lepton colliders. The SDHCAL is a sampling
calorimeter using stainless steel for absorber and Glass Resistive
Plate Chambers (GRPC) as a sensitive medium. The GRPC are read out
by 1 cm× 1 cm pickup pads combined to a
multi-electronics. The prototype was exposed to hadron beams in
both the CERN PS and the SPS beamlines in 2015 allowing the test of
the SDHCAL in a large energy range from 3 GeV to 80 GeV. After
introducing the method used to select the hadrons of our data and
reject the muon and electron contamination, we present the energy
reconstruction approach that we apply to the data collected from
both beamlines and we discuss the response linearity and the energy
resolution of the SDHCAL. The results obtained in the two beamlines
confirm the excellent SDHCAL performance observed with the data
collected with the same prototype in the SPS beamline in 2012. They
also show the stability of the SDHCAL in different beam conditions
and different time periods.
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