We describe the algorithm used to identify charged tracks in the fixed-target charm-photoproduction experiment FOCUS. We begin by describing the new algorithm and contrast this approach with that used in our preceding experiment - E687. We next illustrate the algorithm\u27s performance using physics signals. Finally, we briefly describe some of the methods used to monitor the quantum efficiency and noise of the Cherenkov cells. © 2002 Elsevier Science B.V. All rights reserved
The ability to separately identify the Cherenkov and scintillation light components produced in scin...
Super-Kamiokande, a large water Cherenkov detector, observed atmospheric neutrinos produced by inter...
Active interrogation of cargo containers employing monoenergetic photons offers an expeditious low-...
We describe the algorithm used to identify charged tracks in the fixed-target charm-photoproduction ...
Cherenkov detectors are used for charged particle identification. When a charged particle moves thro...
This paper deals with two major particle identification methods: dE/dx and Cherenkov detection. In t...
This review summarizes the properties and performance of the detectors of focused Cherenkov radiatio...
Alternative particle identification methods to Cherenkov techniques are reviewed. Particular focus i...
A proximity focusing Cherenkov imager for the charge measurement of nuclear cosmic rays in the CREAM...
The Focusing Detector of Internally Reflected Cherenkov light (FDIRC) has been designed to separate ...
We look briefly at the requirements for particle identification for possible beauty experiments at t...
We present here an exhaustive study of the possibilities offered by a combination of a gas radiator ...
A Cherenkov ring reconstruction algorithm has been developed to determine the mean Cherenkov angle. ...
The survey is devoted to methods of charged particle identification at high energies that are based ...
In the thesis we focus on the methods used to detect photons in Ring Imaging Cherenkov detectors, th...
The ability to separately identify the Cherenkov and scintillation light components produced in scin...
Super-Kamiokande, a large water Cherenkov detector, observed atmospheric neutrinos produced by inter...
Active interrogation of cargo containers employing monoenergetic photons offers an expeditious low-...
We describe the algorithm used to identify charged tracks in the fixed-target charm-photoproduction ...
Cherenkov detectors are used for charged particle identification. When a charged particle moves thro...
This paper deals with two major particle identification methods: dE/dx and Cherenkov detection. In t...
This review summarizes the properties and performance of the detectors of focused Cherenkov radiatio...
Alternative particle identification methods to Cherenkov techniques are reviewed. Particular focus i...
A proximity focusing Cherenkov imager for the charge measurement of nuclear cosmic rays in the CREAM...
The Focusing Detector of Internally Reflected Cherenkov light (FDIRC) has been designed to separate ...
We look briefly at the requirements for particle identification for possible beauty experiments at t...
We present here an exhaustive study of the possibilities offered by a combination of a gas radiator ...
A Cherenkov ring reconstruction algorithm has been developed to determine the mean Cherenkov angle. ...
The survey is devoted to methods of charged particle identification at high energies that are based ...
In the thesis we focus on the methods used to detect photons in Ring Imaging Cherenkov detectors, th...
The ability to separately identify the Cherenkov and scintillation light components produced in scin...
Super-Kamiokande, a large water Cherenkov detector, observed atmospheric neutrinos produced by inter...
Active interrogation of cargo containers employing monoenergetic photons offers an expeditious low-...
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