Scintillating crystals are the state of the art for electromagnetic calorimeters and are exploited in many different applications. The paper presents some recent developments and results in different fields of application
Present calorimetric systems give a global information on the total energy deposit at a given time i...
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Background: In high-energy and nuclear physics experiments, total absorption electromagnetic calori...
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 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...
This report reviews the design characteristics of crystal gamma ray detectors for high energy physic...
This second edition features new chapters highlighting advances in our understanding of the behavior...
Scintillating crystals have been for a long time developed as a basic component in particle detector...
AbstractFor a long time the discovery of new scintillators has been more serendipitous than driven b...
For a long time the discovery of new scintillators has been more serendipitous than driven by a deep...
Precision crystal calorimeter traditionally plays an important role in experimental high energy phys...
The Crystal Clear Collaboration (CCC) was approved by the Detector R&D Committee as RD18 in 1990 wit...
In homogeneous high-resolution calorimetry for particle physics, scintillating crystals can now be c...
Present calorimetric systems give a global information on the total energy deposit at a given time i...
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Background: In high-energy and nuclear physics experiments, total absorption electromagnetic calori...
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 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...
This report reviews the design characteristics of crystal gamma ray detectors for high energy physic...
This second edition features new chapters highlighting advances in our understanding of the behavior...
Scintillating crystals have been for a long time developed as a basic component in particle detector...
AbstractFor a long time the discovery of new scintillators has been more serendipitous than driven b...
For a long time the discovery of new scintillators has been more serendipitous than driven by a deep...
Precision crystal calorimeter traditionally plays an important role in experimental high energy phys...
The Crystal Clear Collaboration (CCC) was approved by the Detector R&D Committee as RD18 in 1990 wit...
In homogeneous high-resolution calorimetry for particle physics, scintillating crystals can now be c...
Present calorimetric systems give a global information on the total energy deposit at a given time i...
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Background: In high-energy and nuclear physics experiments, total absorption electromagnetic calori...