Add to ORKGParticle identification in intermediate heavy-ion collisions, using a modern 4 pi detector which contains several active layers, relies on a parametrisation or numerical integration of the energy loss in thick layers of detector material for different ions. Here an analytical solution applicable over an energy range of a few MeV up to a 100A MeV and for ions up to at least Z = 8 is presented. Also, the consequences for time-of-flight measurements (TOF) in detectors behind several thick layers of detector material are discussed. The solution is applied to the data of the Huygens detector, which uses a TPC (dE/dx) and plastic scintillators for particle identification(E and TOF or dE/dx and TOF). (C) 1999 Elsevier Science B.V. All rights reser...
After recalling the basic principles and limits of particle identification using the time of flight ...
We have tested Time-Of-Flight detectors consisting of several combinations of scintillators and phot...
Heavy ions detected in a planar silicon detector were identified by exploiting a recently proposed c...
Particle identification in intermediate heavy-ion collisions, using a modern 4 pi detector which con...
A Time-of-Flight Spectrometer has been developed at SUNY Geneseo utilizing low energy ions, usually ...
A particle identification method is presented, in which calculations of AE energy losses are stored ...
A light heavy ion detection system which consists of a gas-filled ionization chamber (IC) connected ...
International audienceThe Time-of-Flight (TOF) technique coupled with semiconductorlike detectors, a...
International audienceThe design and testing of a novel detector for heavy-ion physics in the interm...
FOOT (FragmentatiOn Of Target) is an applied nuclear physics experiment conceived to conduct high-pr...
The purpose of the relativistic heavy-ion experiment E810 at the Brookhaven National Laboratory Alte...
The addition of a time of flight measurement to a Delta E-E telescope set up in the focal plane of a...
After recalling the basic principles and limits of particle identification using the time of flight ...
We have tested Time-Of-Flight detectors consisting of several combinations of scintillators and phot...
Heavy ions detected in a planar silicon detector were identified by exploiting a recently proposed c...
Particle identification in intermediate heavy-ion collisions, using a modern 4 pi detector which con...
A Time-of-Flight Spectrometer has been developed at SUNY Geneseo utilizing low energy ions, usually ...
A particle identification method is presented, in which calculations of AE energy losses are stored ...
A light heavy ion detection system which consists of a gas-filled ionization chamber (IC) connected ...
International audienceThe Time-of-Flight (TOF) technique coupled with semiconductorlike detectors, a...
International audienceThe design and testing of a novel detector for heavy-ion physics in the interm...
FOOT (FragmentatiOn Of Target) is an applied nuclear physics experiment conceived to conduct high-pr...
The purpose of the relativistic heavy-ion experiment E810 at the Brookhaven National Laboratory Alte...
The addition of a time of flight measurement to a Delta E-E telescope set up in the focal plane of a...
After recalling the basic principles and limits of particle identification using the time of flight ...
We have tested Time-Of-Flight detectors consisting of several combinations of scintillators and phot...
Heavy ions detected in a planar silicon detector were identified by exploiting a recently proposed c...