Crystal calorimeter has traditionally played an important role in precision measurement of electrons and photons in high energy physics experiments. Recent interest in calorimeter technology extends its application to measurement of hadrons and jets with dual readout. Potential application of new generation scintillating crystals of high density and high light yield, such as cerium doped LSO and LYSO, in high energy physics experiments is described. Candidate crystals for the homogeneous hadronic calorimeter concept are also discussed
Lead tungstate crystals doped with small fractions of praesodynium or molybdenum have been tested in...
Total absorption shower counters made of inorganic scintillating crystals have been known for decad...
This report reviews the design characteristics of crystal gamma ray detectors for high energy physic...
AbstractCrystal calorimeter has traditionally played an important role in precision measurement of e...
Crystal calorimeter has traditionally played an important role in precision measurement of electron...
Precision crystal calorimeters traditionally play an important role in high energy physics experimen...
Precision crystal calorimeter traditionally plays an important role in experimental high energy phys...
Background: In high-energy and nuclear physics experiments, total absorption electromagnetic calori...
Crystal calorimeter has traditionally played an important role in precision measurement of electrons...
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Crystal detectors have been used widely in high energy and nuclear physics experiments, medical inst...
Present calorimetric systems give a global information on the total energy deposit at a given time i...
Scintillating crystals are the state of the art for electromagnetic calorimeters and are exploited i...
Abstract The hadronic performance of a Dual-Readout calorimeter consisting of a crystal em section...
Dual Readout Calorimetry is a promising new technique for highresolution calorimetry. It is based on...
Lead tungstate crystals doped with small fractions of praesodynium or molybdenum have been tested in...
Total absorption shower counters made of inorganic scintillating crystals have been known for decad...
This report reviews the design characteristics of crystal gamma ray detectors for high energy physic...
AbstractCrystal calorimeter has traditionally played an important role in precision measurement of e...
Crystal calorimeter has traditionally played an important role in precision measurement of electron...
Precision crystal calorimeters traditionally play an important role in high energy physics experimen...
Precision crystal calorimeter traditionally plays an important role in experimental high energy phys...
Background: In high-energy and nuclear physics experiments, total absorption electromagnetic calori...
Crystal calorimeter has traditionally played an important role in precision measurement of electrons...
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Crystal detectors have been used widely in high energy and nuclear physics experiments, medical inst...
Present calorimetric systems give a global information on the total energy deposit at a given time i...
Scintillating crystals are the state of the art for electromagnetic calorimeters and are exploited i...
Abstract The hadronic performance of a Dual-Readout calorimeter consisting of a crystal em section...
Dual Readout Calorimetry is a promising new technique for highresolution calorimetry. It is based on...
Lead tungstate crystals doped with small fractions of praesodynium or molybdenum have been tested in...
Total absorption shower counters made of inorganic scintillating crystals have been known for decad...
This report reviews the design characteristics of crystal gamma ray detectors for high energy physic...