The CALICE Collaboration is developing highly granular calorimeters for a future e+e− linear collider. The development of the calorimeters is driven by the Particle Flow approach (PFA) in order to achieve a jet energy resolution of 3-4 %. The Analog Hadronic Calorimeter (AHCAL) is one of the detector concepts based on 3×3×0.3 cm3 scintillating tiles read out by novel Silicon Photomultipliers (SiPM) and processed by an ASIC (SPIROC2b) capable to measure the time of individual calorimeter hits. A second generation engineering prototype of the AHCAL is developed to focus on the full scalability of the detector and features, in addition to amplitude measurements, timing measurements. This prototype is composed of 14 active layers corresponding ...
Within the CALICE collaboration, several concepts for the hadronic calorimeter of a future linear co...
Within the CALICE collaboration, several concepts for the hadronic calorimeter of a future linear co...
The CALICE Collaboration develops high granularity calorimeters to achieve excellent energy resoluti...
The CALICE Collaboration is developing highly granular calorimeters for a future e+e− linear collide...
The CALICE Collaboration is developing highly granular calorimeters for a future e+e− linear collide...
The CALICE Collaboration is developing highly granular calorimeters for a future e+e− linear collide...
This thesis presents the study of the time development of hadronic showers in a highly granular hadr...
In the CALICE Collaboration are developed calorimeters for a future e+e− Linear Collider. One approa...
This thesis presents results obtained with the high granularity Analog Hadron Calorimeter (AHCAL) te...
An analog hadron calorimeter (AHCAL) prototype of 5.3 nuclear interaction lengths thickness has been...
An analog hadron calorimeter (AHCAL) prototype of 5.3 nuclear interaction lengths thickness has been...
The CALICE collaboration is currently developing an engineering prototype of an analog hadron calori...
Within the CALICE collaboration, several concepts for the hadronic calorimeter of a future linear co...
Within the CALICE collaboration, several concepts for the hadronic calorimeter of a future linear co...
Within the CALICE collaboration, several concepts for the hadronic calorimeter of a future linear co...
The CALICE Collaboration develops high granularity calorimeters to achieve excellent energy resoluti...
The CALICE Collaboration is developing highly granular calorimeters for a future e+e− linear collide...
The CALICE Collaboration is developing highly granular calorimeters for a future e+e− linear collide...
The CALICE Collaboration is developing highly granular calorimeters for a future e+e− linear collide...
This thesis presents the study of the time development of hadronic showers in a highly granular hadr...
In the CALICE Collaboration are developed calorimeters for a future e+e− Linear Collider. One approa...
This thesis presents results obtained with the high granularity Analog Hadron Calorimeter (AHCAL) te...
An analog hadron calorimeter (AHCAL) prototype of 5.3 nuclear interaction lengths thickness has been...
An analog hadron calorimeter (AHCAL) prototype of 5.3 nuclear interaction lengths thickness has been...
The CALICE collaboration is currently developing an engineering prototype of an analog hadron calori...
Within the CALICE collaboration, several concepts for the hadronic calorimeter of a future linear co...
Within the CALICE collaboration, several concepts for the hadronic calorimeter of a future linear co...
Within the CALICE collaboration, several concepts for the hadronic calorimeter of a future linear co...
The CALICE Collaboration develops high granularity calorimeters to achieve excellent energy resoluti...