The construction and performance of a large area scintillator-based time-of-flight detector for the HARP experiment at CERN are reported. An intrinsic counter time resolution of similar to 160 ps was achieved. The precision on the time calibration and monitoring of the detector was maintained at better than 100 ps by using dedicated cosmic rays runs, a fast laser-based system and calibrations with beam particles. The detector was operated on the T9 PS beamline during 2001 and 2002. A time-of-flight resolution of similar to 200 ps was obtained, providing pi/p discrimination at more than 3sigma up to 4.0 GeV/c momentum
A new Time of Flight (TOF) detector based on scintillator bars with fine-mesh photomultipliers at bo...
This work presents the analysis of the performance of the RPC ToF wall of the HADES, located at GSI ...
The TOF-tracker concept, the simultaneous measurement of accurate time and bi-dimensional space coor...
The construction and performance of a large area scintillator-based time-of-flight detector for the ...
The construction and performance of a large area scintillator-based time-of-flight detector for the ...
A time-of-flight system based on 46 multigap glass resistive plate chambers has operated for 2 years...
HARP is a high-statistics, large solid angle experiment to measure hadron production using proton an...
The HARP spectrometer that took data at the CERN Proton Synchrotron in 2001 and 2002 had as large-an...
Abstract The calibration and monitoring system constructed for the HARP experiment scintillator-ba...
The construction and performance of a large area time-of-flight detector for the DIRAC experiment at...
A time-of-flight system based on 46 multigap glass resistive plate chambers has operated for 2 years...
The HARP spectrometer that took data at the CERN Proton Synchrotron in 2001 and 2002 had as large-an...
We present in this work the calibration procedure and a performance study of long scintillator bars ...
Timing and amplitude properties of a prototype scintillator TOF counter at an external target facili...
A precise calibration and monitoring system has been developed for the HARP experiment scintillator-...
A new Time of Flight (TOF) detector based on scintillator bars with fine-mesh photomultipliers at bo...
This work presents the analysis of the performance of the RPC ToF wall of the HADES, located at GSI ...
The TOF-tracker concept, the simultaneous measurement of accurate time and bi-dimensional space coor...
The construction and performance of a large area scintillator-based time-of-flight detector for the ...
The construction and performance of a large area scintillator-based time-of-flight detector for the ...
A time-of-flight system based on 46 multigap glass resistive plate chambers has operated for 2 years...
HARP is a high-statistics, large solid angle experiment to measure hadron production using proton an...
The HARP spectrometer that took data at the CERN Proton Synchrotron in 2001 and 2002 had as large-an...
Abstract The calibration and monitoring system constructed for the HARP experiment scintillator-ba...
The construction and performance of a large area time-of-flight detector for the DIRAC experiment at...
A time-of-flight system based on 46 multigap glass resistive plate chambers has operated for 2 years...
The HARP spectrometer that took data at the CERN Proton Synchrotron in 2001 and 2002 had as large-an...
We present in this work the calibration procedure and a performance study of long scintillator bars ...
Timing and amplitude properties of a prototype scintillator TOF counter at an external target facili...
A precise calibration and monitoring system has been developed for the HARP experiment scintillator-...
A new Time of Flight (TOF) detector based on scintillator bars with fine-mesh photomultipliers at bo...
This work presents the analysis of the performance of the RPC ToF wall of the HADES, located at GSI ...
The TOF-tracker concept, the simultaneous measurement of accurate time and bi-dimensional space coor...