Design and performance tests of the CDF time-of-flight system

Authors :: H. Matsunaga
W. Carithers
A. Kazama
C. Grozis
Y. Oh
R. Stanek
Fumihiko Ukegawa
B. Kim
Stefano Giagu
W. Kononenko
Matthew Jones
F. M. Newcomer
M. Mulhearn
K. Takikawa
Ilya Kravchenko
Yongsun Kim
Giovanni Bellettini
S. Motohashi
R. VanBerg
S. Cabrera
C. Cerri
Ivan-Kresimir Furic
M. Rescigno
Chunhui Chen
D. Depedis
L. Zanello
Joe Kroll
S. Pavlon
Konstanty Sumorok
Teresa Rodrigo
A. Korn
Katsufumi Sato
G.M. Mayers
A. Menzione
D.H. Kim
C. Paus
A. Ruiz
C. Dionisi
Ivan Vila
K. Anikeev
D. Usynin
S. Kim
I. Yu
G. Bauer
R. Kephart
S.B. Kim
Source :: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 461:579-581
Publication Year :: 2001
Publisher :: Elsevier BV, 2001.
Abstract: The CDF II detector contains a time-of-flight detector consisting of 216 scintillator bars of 279 cm length and 4×4 cm2 cross-section located at a radius of 138 cm from the beam axis. The bars are installed on the inner surface of the CDF solenoid, which produces an axial field of 1.4 T. Nineteen-stage fine-mesh photomultiplier tubes are attached at both ends of the scintillator bars. Photostatistics limit the time-of-flight resolution, which is expected to be 100 ps. The primary physics motivation is K± identification for improved neutral B meson flavor determination.

Subjects :: Physics
Nuclear and High Energy Physics
Photomultiplier
Physics::Instrumentation and Detectors
business.industry
High Energy Physics::Phenomenology
Detector
Solenoid
Radius
Scintillator
Nuclear physics
Time of flight
Optics
High Energy Physics::Experiment
B meson
business
Instrumentation
Beam (structure)

ISSN :: 01689002
Volume :: 461
Database :: OpenAIRE
Journal :: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Accession number :: edsair.doi.dedup.....3d6fe6c4ae3c55a40c16c20a908d9688

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