Add to ORKGFuture HEP experiments at the energy and intensity frontiers require fast inorganic crystal scintillators with excellent radiation hardness to face the challenges of unprecedented event rate and severe radiation environment. This paper reports recent progress in application of very fast inorganic scintillators in future HEP experiments, such as thin layer of LYSO crystals for a shashlik sampling calorimeter and a precision TOF detector proposed for the CMS upgrade at the HL-LHC, undoped CsI crystals for the Mu2e experiment at Fermilab and yttrium doped BaF_2 crystals for the proposed Mu2e-II experiment. Applications for Gigahertz hard X-ray imaging will also be discussed
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Future high energy physics experiments at the energy and intensity frontiers will face challenges fr...
AbstractLutetium-Yttrium Orthosilicate doped with Cerium (LYSO), as a bright scintillating crystal, ...
Future HEP experiments at the energy and intensity frontiers require fast inorganic crystal scintill...
Future HEP experiments at the energy and intensity frontiers require fast and ultrafast inorganic sc...
Future HEP experiments at the energy and intensity frontiers require fast inorganic crystal scintill...
Crystal detectors have been used widely in high energy and nuclear physics experiments, medical inst...
Because of their high stopping power (X_0 = 1.14 cm), fast (t = 40 ns) and bright (4 times of BGO) s...
Background: In high-energy and nuclear physics experiments, total absorption electromagnetic calori...
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...
Precision crystal calorimeter traditionally plays an important role in experimental high energy phys...
This second edition features new chapters highlighting advances in our understanding of the behavior...
Ultrafast inorganic scintillators with excellent radiation hardness are required for future HEP expe...
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Future high energy physics experiments at the energy and intensity frontiers will face challenges fr...
AbstractLutetium-Yttrium Orthosilicate doped with Cerium (LYSO), as a bright scintillating crystal, ...
Future HEP experiments at the energy and intensity frontiers require fast inorganic crystal scintill...
Future HEP experiments at the energy and intensity frontiers require fast and ultrafast inorganic sc...
Future HEP experiments at the energy and intensity frontiers require fast inorganic crystal scintill...
Crystal detectors have been used widely in high energy and nuclear physics experiments, medical inst...
Because of their high stopping power (X_0 = 1.14 cm), fast (t = 40 ns) and bright (4 times of BGO) s...
Background: In high-energy and nuclear physics experiments, total absorption electromagnetic calori...
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...
Precision crystal calorimeter traditionally plays an important role in experimental high energy phys...
This second edition features new chapters highlighting advances in our understanding of the behavior...
Ultrafast inorganic scintillators with excellent radiation hardness are required for future HEP expe...
We review the principal characteristics driving the design of precision calorimeters composed of ino...
Future high energy physics experiments at the energy and intensity frontiers will face challenges fr...
AbstractLutetium-Yttrium Orthosilicate doped with Cerium (LYSO), as a bright scintillating crystal, ...
