Add to ORKGCALICE Collaboration EUDET CollaborationThis abstract describes the new front end ASIC designed for the silicon tungsten electromagnetic calorimeter called SKIROC. This new chip embeds the main features required for the ILC final detector. Integration and low-power consumption of the read-out ASIC for the International Linear Collider (ILC) 82-million-channel W-Si calorimeter must reach an unprecedented level as it will be embedded inside the detector. Uniformity and dynamic range performance has to reach the accuracy to achieve calorimetric measurement. A first step towards this goal has been a 10,000-channel physics prototype of 18*18 cm which is currently in test beam in CERN. A new version of a full integrated read out chip (SKIROC) has...
This paper describes an R&D electronic program for the next generation of linear collider electromag...
International audienceThe ILD Si-W ECAL is a sampling calorimeter with tungsten absorber and highly ...
Omega et Calice collaborationsInternational audienceThe SPIROC chip is a dedicated very front-end el...
CALICE Collaboration EUDET CollaborationThis abstract describes the new front end ASIC designed for ...
Integration and low-power consumption of the read-out ASIC for the International Linear Collider (IL...
Integration and low-power consumption of the read-out ASIC for the International Linear Collider (IL...
SKIROC (Silicon Kalorimeter Integrated ReadOut Chip) is the very front end chip designed for the rea...
International audienceSKIROC (Silicon Kalorimeter Integrated ReadOut Chip) is the front end chip des...
An ASIC (FLC_PHY3) has been developed to read out the test-beam prototype of the future internationa...
This work takes place in the design project of the electromagnetic calorimeter for the future Intern...
International audienceA readout ASIC called CaloRIC, has been developed to fulfil the signal process...
An ASIC (FLC_PHY3) has been developed to readout the test-beam prototype of the future linear collid...
International audienceThe OMEGA group at LAL has designed 3 chips for ILC calorimeters: one analog (...
Imaging calorimetry at the International Linear Collider requires new detectors with one hundred mil...
This paper describes an R&D electronic program for the next generation of linear collider electromag...
International audienceThe ILD Si-W ECAL is a sampling calorimeter with tungsten absorber and highly ...
Omega et Calice collaborationsInternational audienceThe SPIROC chip is a dedicated very front-end el...
CALICE Collaboration EUDET CollaborationThis abstract describes the new front end ASIC designed for ...
Integration and low-power consumption of the read-out ASIC for the International Linear Collider (IL...
Integration and low-power consumption of the read-out ASIC for the International Linear Collider (IL...
SKIROC (Silicon Kalorimeter Integrated ReadOut Chip) is the very front end chip designed for the rea...
International audienceSKIROC (Silicon Kalorimeter Integrated ReadOut Chip) is the front end chip des...
An ASIC (FLC_PHY3) has been developed to read out the test-beam prototype of the future internationa...
This work takes place in the design project of the electromagnetic calorimeter for the future Intern...
International audienceA readout ASIC called CaloRIC, has been developed to fulfil the signal process...
An ASIC (FLC_PHY3) has been developed to readout the test-beam prototype of the future linear collid...
International audienceThe OMEGA group at LAL has designed 3 chips for ILC calorimeters: one analog (...
Imaging calorimetry at the International Linear Collider requires new detectors with one hundred mil...
This paper describes an R&D electronic program for the next generation of linear collider electromag...
International audienceThe ILD Si-W ECAL is a sampling calorimeter with tungsten absorber and highly ...
Omega et Calice collaborationsInternational audienceThe SPIROC chip is a dedicated very front-end el...