A front-end circuit for RPC detectors realized with an eight-channel full custom chip in GaAs technology is described. This chip exhibits a 150 lV minimum threshold, 3 dB noise Þgure, 160 MHz bandwidth and 50 mW/channel power consumption
Resistive Plate Chambers (RPCs) are gaseous parallel plate avalanche detectors that implement electr...
A monolithically integrated GaAs frontend will be presented consisting of a Charge Sensititve Preamp...
InstrumentationInternational audienceThe RD53 collaboration is developing a large scale pixel front-...
A front-end circuit for RPC detectors realized with an eight-channel full custom chip in GaAs techno...
Although not traditionally considered for particle detector readout, circuit solutions based upon Ga...
A dedicated front-end electronics has been developed for the trigger chambers of the ALICE muon spec...
The reduction of the average charge per count in the gas along with the capability to discriminate v...
A first prototype of the front-end ASIC dedicated to the trigger detector of the dimuon arm of ALICE...
A dedicated front-end electronics has been developed for the trigger chambers of the ALICE muon spec...
P. Rosnet on behalf of the ALICE CollaborationA dedicated front-end electronics has been developed f...
A full-size prototype of the second barrel RPC station (RB2) for the CMS detector has been tested un...
The Resistive Plate Chamber (RPC) detector Front-End (FE) for high-rate experiments is being develop...
A new generation of resistive plate chambers, capable of withstanding high particle fluxes (up to 20...
A novel version of the front-end electronics for the CMS Resistive Plate Chambers is described. It i...
The upgrade of the Resistive Plate Chamber (RPC) detector, in order to increase the detector rate ca...
Resistive Plate Chambers (RPCs) are gaseous parallel plate avalanche detectors that implement electr...
A monolithically integrated GaAs frontend will be presented consisting of a Charge Sensititve Preamp...
InstrumentationInternational audienceThe RD53 collaboration is developing a large scale pixel front-...
A front-end circuit for RPC detectors realized with an eight-channel full custom chip in GaAs techno...
Although not traditionally considered for particle detector readout, circuit solutions based upon Ga...
A dedicated front-end electronics has been developed for the trigger chambers of the ALICE muon spec...
The reduction of the average charge per count in the gas along with the capability to discriminate v...
A first prototype of the front-end ASIC dedicated to the trigger detector of the dimuon arm of ALICE...
A dedicated front-end electronics has been developed for the trigger chambers of the ALICE muon spec...
P. Rosnet on behalf of the ALICE CollaborationA dedicated front-end electronics has been developed f...
A full-size prototype of the second barrel RPC station (RB2) for the CMS detector has been tested un...
The Resistive Plate Chamber (RPC) detector Front-End (FE) for high-rate experiments is being develop...
A new generation of resistive plate chambers, capable of withstanding high particle fluxes (up to 20...
A novel version of the front-end electronics for the CMS Resistive Plate Chambers is described. It i...
The upgrade of the Resistive Plate Chamber (RPC) detector, in order to increase the detector rate ca...
Resistive Plate Chambers (RPCs) are gaseous parallel plate avalanche detectors that implement electr...
A monolithically integrated GaAs frontend will be presented consisting of a Charge Sensititve Preamp...
InstrumentationInternational audienceThe RD53 collaboration is developing a large scale pixel front-...
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