Add to ORKGAbstract Light collection processes in heavy crystals (in particular BGO and PWO) used in scintillation spectrometers were simulated by the developed program package LIGHT. Due to the results obtained, we had the possibility to include these processes into GEANT computations of the response function for the PHOS prototype. </HTML
The Photon Simulator (PhoSim) is a set of very fast photon Monte Carlo codes designed to simulate li...
Inorganic scintillators are playing an ever increasing role in the search for rare events. Progress ...
Pulse height distribution (PHD) registered by a spectrometer is influenced by various physical pheno...
In order to predict the behavior of a gamma camera based on scintillators, both to optimize its desi...
A new Monte Carlo simulation code has been developed to model the transport of optical photons aroun...
International audienceTypical PET detectors are composed of a scintillator coupled to a photodetecto...
We present the program optics that simulates the light response of an arbitrarily shaped scintillati...
Typical PET detectors are composed of a scintillator coupled to a photodetector that detects scintil...
There is a need for mathematical modelling for the evaluation of important parameters for photon ima...
Scintillator- and fibre-based particle detectors are an indispensable tool in high-energy particle p...
Scintillator- and fibre-based particle detectors are an indispensable tool in high-energy particle p...
Geant4 is an object oriented toolkit created for the simulation of High-Energy Physics detectors. Ge...
To perform adequate simulations of luminescent cascade systems, a hybrid method combining a commerci...
This thesis is dedicated to the study of the response of scintillator screens used in X-ray imaging,...
Accurately modeling the light transport in scintillation detectors is essential to design new detect...
The Photon Simulator (PhoSim) is a set of very fast photon Monte Carlo codes designed to simulate li...
Inorganic scintillators are playing an ever increasing role in the search for rare events. Progress ...
Pulse height distribution (PHD) registered by a spectrometer is influenced by various physical pheno...
In order to predict the behavior of a gamma camera based on scintillators, both to optimize its desi...
A new Monte Carlo simulation code has been developed to model the transport of optical photons aroun...
International audienceTypical PET detectors are composed of a scintillator coupled to a photodetecto...
We present the program optics that simulates the light response of an arbitrarily shaped scintillati...
Typical PET detectors are composed of a scintillator coupled to a photodetector that detects scintil...
There is a need for mathematical modelling for the evaluation of important parameters for photon ima...
Scintillator- and fibre-based particle detectors are an indispensable tool in high-energy particle p...
Scintillator- and fibre-based particle detectors are an indispensable tool in high-energy particle p...
Geant4 is an object oriented toolkit created for the simulation of High-Energy Physics detectors. Ge...
To perform adequate simulations of luminescent cascade systems, a hybrid method combining a commerci...
This thesis is dedicated to the study of the response of scintillator screens used in X-ray imaging,...
Accurately modeling the light transport in scintillation detectors is essential to design new detect...
The Photon Simulator (PhoSim) is a set of very fast photon Monte Carlo codes designed to simulate li...
Inorganic scintillators are playing an ever increasing role in the search for rare events. Progress ...
Pulse height distribution (PHD) registered by a spectrometer is influenced by various physical pheno...