P. Fauland
Bielefeld University
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Publication
Featured researches published by P. Fauland.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2003
E. Albrecht; Günter Baum; T. Bellunato; A. Bressan; S. Dalla Torre; C. D'Ambrosio; Martyn Davenport; M. Dragicevic; S. Duarte Pinto; P. Fauland; S. Ilie; G. Lenzen; P. Pagano; D. Piedigrossi; F. Tessarotto; O. Ullaland
The optical transparency of perfluorocarbons used as Cherenkov media is of prime importance to many Ring Imaging Cherenkov detectors. We will in this paper show that the main photon absorbers in these fluids are hydrocarbons with double or triple bonds. We will moreover discuss a process which can eliminate these pollutants and restore the intrinsic excellent optical transparency of these fluids in the VUV range.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2003
E. Albrecht; Günter Baum; R. Birsa; F. Borotto; F. Bradamante; A. Braem; A. Bressan; A. Chapiro; A. Cicuttin; C. D'Ambrosio; A. Colavita; S. Costa; M.L. Crespo; J. Ch. Gayde; S. Dalla Torre; V. Diaz; V. Duic; L. Fernandez Hernando; P. Fauland; Mir. Finger; F. Fratnik; M. Giorgi; B. Gobbo; R. Ijaduola; V. Kalinnikov; M. Lamanna; A. Martin; M Laub; M. Marengo; P. Pagano
The architecture and the properties of the mirror system of the COMPASS RICH-1 detector, composed by 116 spherical VUV reflecting units supported by a lightweight mechanical structure, are described.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2003
E. Albrecht; Günter Baum; T. Bellunato; R. Birsa; M. Bosteels; F. Bradamante; A. Bressan; A. Chapiro; A. Cicuttin; A. Colavita; S. Costa; M.L. Crespo; S. Dalla Torre; V. Diaz; V. Duic; P. Fauland; F. Fratnik; M. Giorgi; B. Gobbo; R. Ijaduola; V. Kalinnikov; M. Lamanna; A. Martin; P. Pagano; P. Schiavon; F. Tessarotto; A. Zanetti
The design of the COMPASS RICH-1 gas system, its operational modes, the cleaning setups for the preparation of the radiator gas and transmission measurement installations are described. The gas system in presently fully operational and satisfactory transmission of VUV light through the radiator gas has been reached.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2003
E. Albrecht; Günter Baum; R. Birsa; M. Bosteels; F. Bradamante; A. Braem; A. Bressan; A. Cicuttin; P. Ciliberti; A. Colavita; S. Costa; M.L. Crespo; P. Cristaudo; S. Dalla Torre; V. Diaz; P. Fauland; M. Finger; F. Fratnik; M. Giorgi; B. Gobbo; A. Grasso; R. Ijaduola; V. Kalinnikov; M. Lamanna; M Laub; A. Martin; G. Menon; P. Pagano; D. Panzieri; D. Piedigrossi
RICH-1, one of the key detectors of the COMPASS experiment at CERN SPS, is described. Photon detectors are MWPCs equipped with CsI photo-cathodes.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 1999
Günter Baum; R. Birsa; F. Bradamante; A. Bressan; A. Colavita; S. Costa; S. Dalla Torre; P. Fauland; Mir. Finger; F. Fratnik; M. Giorgi; B. Gobbo; A. Grasso; M. Lamanna; A. Martin; G. Menon; D. Panzieri; P. Schiavon; F. Tessarotto; A. Zanetti
The set-up of the COMPASS experiment (NA58 at CERN SPS) consists of two spectrometers (a large-angle one followed by a small-angle spectrometer) both equipped with a gas RICH (RICH 1 and RICH 2) for hadron identification. RICH 1 is currently under construction, while RICH 2 will be added at a second stage. RICH 1 design parameters and technological choices are discussed
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2003
Günter Baum; R. Birsa; F. Bradamante; A. Bressan; A. Chapiro; A. Cicuttin; P. Ciliberti; A. Colavita; S. Costa; M.L. Crespo; P. Cristaudo; S. Dalla Torre; V. Diaz; P. Fauland; F. Fratnik; M. Giorgi; B. Gobbo; R. Ijaduola; V. Kalinnikov; M. Lamanna; A. Martin; G. Menon; P. Pagano; P. Schiavon; F. Tessarotto; A. Zanetti
This paper describes the reconfigurable read-out system for the 82944 RICH-1 channels of the COMPASS experiment (NA58) at CERN. The system is based on 192 identical large front-end boards (BORA board). BORA was designed for acquiring, digitizing, threshold subtracting and transmitting event data. The overall operation of the board is controlled and supervised by a DSP tightly interacting with an FPGA that acts as a parallel co-processor. The DSP allows characterizing each analog channel by locally calculating noise and pedestal. Each BORA communicates with the outside world through two optical fibers and through a dedicated DSP network. One optical fiber is used to receive event triggers, and the other one is used to transmit event data to subsequent processing stages of the acquisition system. The DSP network allows reconfiguring and reprogramming the DSPs and FPGAs as well as acquiring sample events to visualize the overall operation of the system. The whole RICH has eight DSP networks working in parallel. These networks are handled by DOLINA, a PC resident multiprocessor board containing eight DSPs. Each network is formed by 24 BORA DSPs and 1 DOLINA DSP. The read-out system can steadily work up to a trigger rate of 75 kHz with maximum pixel occupancy of 20%, reaching a transmission data rate of 5.13 Gbytes/s.
Nuclear Physics B - Proceedings Supplements | 1999
Günter Baum; R. Birsa; F. Bradamante; A. Bressan; A. Colavita; S. Costa; S. Dalla Torre; P. Fauland; M. Finger; Fabio Fratnik; M. Giorgi; B. Gobbo; A. Grasso; M. Lamanna; A. Martin; G. Menon; D. Panzieri; P. Schiavon; F. Tessarotto; A. Zanetti
Abstract A large acceptance gas RICH detector is presently under construction for the spectrometer of the COMPASS Experiment. Its design parameters are presented and the main characteristics of the vessel, the mirrors system, the photon detectors and the front-end electronics are discussed together with some results from prototyping activities.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 1999
Günter Baum; R. Birsa; F. Bradamante; A. Bressan; A. Colavita; S. Costa; S. Dalla Torre; P. Fauland; Mir. Finger; F. Fratnik; M. Giorgi; B. Gobbo; A. Grasso; M. Lamanna; A. Martin; G. Menon; D. Panzieri; P. Schiavon; F. Tessarotto; A. Zanetti
A dedicated Monte Carlo has been built to study the optical properties of the RICH 1 detector presently under construction for the COMPASS experiment at CERN. In this paper we focus on the optimization of the position of the photon detector with respect to the RICH mirror and on the alignment of the mirror elements forming the mirror surface. ( 1999 Elsevier Science B.V. All rights reserved.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2003
Günter Baum; R. Birsa; F. Bradamante; A. Bressan; A. Chapiro; A. Cicuttin; A. Colavita; S. Costa; M.L. Crespo; S. Dalla Torre; V. Diaz; V. Duic; P. Fauland; F. Fratnik; M. Giorgi; B. Gobbo; R. Ijaduola; V. Kalinnikov; M. Lamanna; A. Martin; P. Pagano; P. Schiavon; F. Tessarotto; A. Zanetti
Abstract RICHONE is the pattern recognition and PID code for COMPASS RICH-1. RICHONE is part of CORAL, the COMPASS software system, a C++ framework developed within the collaborations using up-to-date techniques and tools.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2005
E. Albrecht; Günter Baum; R. Birsa; F. Bradamante; A. Bressan; A. Chapiro; A. Cicuttin; P. Ciliberti; A. Colavita; S. Costa; M. Crespo; P. Cristaudo; S. Dalla Torre; C. D’Ambrosio; V. Diaz; V. Duic; P. Fauland; M. Finger; F. Fratnik; M. Giorgi; B. Gobbo; A. Martin; G. Menon; A. Mielech; P. Pagano; D. Piedigrossi; P. Schiavon; F. Sozzi; F. Tessarotto
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