Calorimeters measure the energy a particle loses as it passes through the detector. They are designed to absorb most of the particles coming from a collision, forcing them to deposit all of their energy within the detector
The calorimeters form the second layer of ATLAS. The ATLAS calorimeters measure the energy that a pa...
With their ability to measure neutral particles, calorimeters are one of the most important componen...
The authors studied, with a specially designed hadron calorimeter, the contributions of different me...
The superconducting Tevatron was added to Fermilab's 400 Gev Proton Accelerator, the main ring, in 1...
A series of tests have been performed on a liquid argon calorimeter module at the Test Beam Facility...
This short review will be concerned with questions which arise in the design and construction of cal...
The Liquid Argon calorimeter (LAr) is a key detector component in the ATLAS experiment at the LHC. I...
Liquid argon (LAr) has suitable properties for use as a particle-detector medium, however, its respo...
The Liquid Argon calorimeter (LAr) is a key detector component in the ATLAS experiment at the LHC. I...
The Liquid Argon (LAr) calorimeter is a key detector component in the ATLAS experiment at the Large ...
Hadron Calorimetry based on the Liquid Argon Ionisation Chamber technique is one of the choice techn...
In particle physics, calorimetry refers to the absorption of a particle and the transformation of it...
A number of innovative experiments dedicated to neutrino oscillations and rare event physics, such a...
ATL-COM-LARG-2010-015The Liquid Argon calorimeter (LAr) is a key detector component in the ATLAS exp...
Calorimetry plays a key role in high energy physics experiments. Multipurpose detectors installed at...
The calorimeters form the second layer of ATLAS. The ATLAS calorimeters measure the energy that a pa...
With their ability to measure neutral particles, calorimeters are one of the most important componen...
The authors studied, with a specially designed hadron calorimeter, the contributions of different me...
The superconducting Tevatron was added to Fermilab's 400 Gev Proton Accelerator, the main ring, in 1...
A series of tests have been performed on a liquid argon calorimeter module at the Test Beam Facility...
This short review will be concerned with questions which arise in the design and construction of cal...
The Liquid Argon calorimeter (LAr) is a key detector component in the ATLAS experiment at the LHC. I...
Liquid argon (LAr) has suitable properties for use as a particle-detector medium, however, its respo...
The Liquid Argon calorimeter (LAr) is a key detector component in the ATLAS experiment at the LHC. I...
The Liquid Argon (LAr) calorimeter is a key detector component in the ATLAS experiment at the Large ...
Hadron Calorimetry based on the Liquid Argon Ionisation Chamber technique is one of the choice techn...
In particle physics, calorimetry refers to the absorption of a particle and the transformation of it...
A number of innovative experiments dedicated to neutrino oscillations and rare event physics, such a...
ATL-COM-LARG-2010-015The Liquid Argon calorimeter (LAr) is a key detector component in the ATLAS exp...
Calorimetry plays a key role in high energy physics experiments. Multipurpose detectors installed at...
The calorimeters form the second layer of ATLAS. The ATLAS calorimeters measure the energy that a pa...
With their ability to measure neutral particles, calorimeters are one of the most important componen...
The authors studied, with a specially designed hadron calorimeter, the contributions of different me...