Add to ORKGThis report reviews the design characteristics of crystal gamma ray detectors for high energy physics. The unique physics capability of these detectors is the result of their excellent energy resolution, uniform hermetic coverage and fine granularity. To maintain crystal's resolution in situ radiation hardness is a principle requirement. The performance of various heavy crystal scintillators is discussed. A technical approach to solve radiation damage problem by optical bleaching in situ is elaborated
Crystal detectors have been used widely in high energy and nuclear physics experiments, medical inst...
In homogeneous high-resolution calorimetry for particle physics, scintillating crystals can now be c...
In high energy physics (HEP) and nuclear physics experiments, total absorption electromagnetic calor...
This report reviews the design characteristics of crystal gamma ray detectors for high energy physic...
Scintillating crystals are the state of the art for electromagnetic calorimeters and are exploited i...
Precision crystal calorimeters traditionally play an important role in high energy physics experimen...
Crystal detectors have been used widely in high energy and nuclear physics experiments, medical inst...
Background: In high-energy and nuclear physics experiments, total absorption electromagnetic calori...
Precision crystal calorimeter traditionally plays an important role in experimental high energy phys...
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Crystal calorimeter has traditionally played an important role in precision measurement of electrons...
AbstractCrystal calorimeter has traditionally played an important role in precision measurement of e...
Because of their superb energy resolution and detection efficiency scintillation crystals are widely...
This second edition features new chapters highlighting advances in our understanding of the behavior...
Because of their superb energy resolution and detection efficiency crystal scintillators are widely ...
Crystal detectors have been used widely in high energy and nuclear physics experiments, medical inst...
In homogeneous high-resolution calorimetry for particle physics, scintillating crystals can now be c...
In high energy physics (HEP) and nuclear physics experiments, total absorption electromagnetic calor...
This report reviews the design characteristics of crystal gamma ray detectors for high energy physic...
Scintillating crystals are the state of the art for electromagnetic calorimeters and are exploited i...
Precision crystal calorimeters traditionally play an important role in high energy physics experimen...
Crystal detectors have been used widely in high energy and nuclear physics experiments, medical inst...
Background: In high-energy and nuclear physics experiments, total absorption electromagnetic calori...
Precision crystal calorimeter traditionally plays an important role in experimental high energy phys...
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Crystal calorimeter has traditionally played an important role in precision measurement of electrons...
AbstractCrystal calorimeter has traditionally played an important role in precision measurement of e...
Because of their superb energy resolution and detection efficiency scintillation crystals are widely...
This second edition features new chapters highlighting advances in our understanding of the behavior...
Because of their superb energy resolution and detection efficiency crystal scintillators are widely ...
Crystal detectors have been used widely in high energy and nuclear physics experiments, medical inst...
In homogeneous high-resolution calorimetry for particle physics, scintillating crystals can now be c...
In high energy physics (HEP) and nuclear physics experiments, total absorption electromagnetic calor...