The CDF time of flight detector
Autor: | G. Veramendi, H. Kaneko, M. Rescigno, R. Kephart, G. Bauere, I. Cho, Ilya Kravchenko, G.M. Mayers, W. Kononenko, Ivan-Kresimir Furic, Fumihiko Ukegawa, Y. D. Oh, Daijin Kim, A. Korn, A. Menzione, M. Mulhearn, Teresa Rodrigo, Joe Kroll, S. De Cecco, S. Kim, Katsufumi Sato, Soo-Bong Kim, Jongmin Lee, Christoph Paus, S. Pavlon, R. Vilar, E. Vataga, Matthew Jones, R. Stanek, J. Piedra, A. Kazama, Intae Yu, F. M. Newcomer, H. Spinella, S. Cabrera, R. Van Berg, Jose R. Fernandez, A. De Girolamo, Gervasio Gomez, C. Grozis, Giovanni Bellettini, Yongsun Kim, Stefano Giagu, D. De Pedis, Chunhui Chen, Rudolf Oldeman, C. Dionisi, Ivan Vila, D. Usynin, Beom Jun Kim, A. Ruiz, Konstanty Sumorok, C. Cerri, Min Suk Kim, K. Anikeev, L. Zanello, M. Ahn |
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Zdroj: | INSPIRE-HEP Scopus-Elsevier |
Popis: | A new Time of Flight (TOF) detector based on scintillator bars with fine-mesh photomultipliers at both ends has been in operation since 2001 in the CDF experiment. With a design resolution of 100 ps, the TOF can provide separation between K/sup /spl plusmn// and /spl pi//sup /spl plusmn// in pp~ collisions at the 2/spl sigma/ level for low momentum, which enhances b flavor tagging capabilities. Because of its very fast response, the TOF is an excellent triggering device, and it is used to trigger on highly ionizing particles, multiple minimum ionizing particles and cosmic rays. Particle identification is achieved by comparing the time-of-flight of the particle measured by the TOF to the time expected for a given mass hypothesis. In order to obtain the resolution necessary for particle ID, optimal calibrations are critical. This paper describes the TOF detector, its calibration procedure, the achieved resolution, the long term operation performances and some of the first results from data analysis using this detector. |
Databáze: | OpenAIRE |
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