Add to ORKGA calorimeter design based on high-pressure gas-ionization tubes arranged nearly parallel to the incident particle direction is described. Energy, time, and position resolutions of such a calorimeter, as well as its radiation hardness and electronic noise, are discussed. Resulting characteristics meet the needs of the forward calorimetry for SSC and LHC collider experiments, and seem promising for application in other, more central parts of these experiments.
This thesis describes the optimisation of the calorimeter design for collider experiments at the fut...
Hermetic coverage of LHC detectors will require the use of fast and radiation resistent calorimeters...
Some principal design features of front-end electronics for calorimeters in experiments at the LHC w...
A calorimeter design based on high-pressure gas-ionization tubes arranged nearly parallel to the inc...
A hadron calorimeter based on high-pressure gas-ionization tubes arranged nearly parallel to the inc...
Calorimeter has been an essential element of High Energy Physics Experiment for decades. As beam ene...
We report on measurements performed on a liquid scintillator calorimeter prototype designed for the ...
The Future Circular Collider (FCC) Collaboration is preparing the next generation of experiments in ...
Electromagnetic calorimetry forms a key element of almost all current high energy particle physics d...
We report on the design and on beam test results of a liquid scintillator/lead prototype calorimeter...
The physics reach and feasibility of the Future Circular Collider are currently under investigation....
The domain of small Bjorken-x regime, dominated by gluon dynamics and unrevealed so far, can be expl...
International audienceThe design of calorimeter systems for a detector at a future Linear Collider (...
Calorimetry plays a key role in high energy physics experiments. Multipurpose detectors installed at...
With their ability to measure neutral particles, calorimeters are one of the most important componen...
This thesis describes the optimisation of the calorimeter design for collider experiments at the fut...
Hermetic coverage of LHC detectors will require the use of fast and radiation resistent calorimeters...
Some principal design features of front-end electronics for calorimeters in experiments at the LHC w...
A calorimeter design based on high-pressure gas-ionization tubes arranged nearly parallel to the inc...
A hadron calorimeter based on high-pressure gas-ionization tubes arranged nearly parallel to the inc...
Calorimeter has been an essential element of High Energy Physics Experiment for decades. As beam ene...
We report on measurements performed on a liquid scintillator calorimeter prototype designed for the ...
The Future Circular Collider (FCC) Collaboration is preparing the next generation of experiments in ...
Electromagnetic calorimetry forms a key element of almost all current high energy particle physics d...
We report on the design and on beam test results of a liquid scintillator/lead prototype calorimeter...
The physics reach and feasibility of the Future Circular Collider are currently under investigation....
The domain of small Bjorken-x regime, dominated by gluon dynamics and unrevealed so far, can be expl...
International audienceThe design of calorimeter systems for a detector at a future Linear Collider (...
Calorimetry plays a key role in high energy physics experiments. Multipurpose detectors installed at...
With their ability to measure neutral particles, calorimeters are one of the most important componen...
This thesis describes the optimisation of the calorimeter design for collider experiments at the fut...
Hermetic coverage of LHC detectors will require the use of fast and radiation resistent calorimeters...
Some principal design features of front-end electronics for calorimeters in experiments at the LHC w...