M. Gold
Lawrence Berkeley National Laboratory
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Publication
Featured researches published by M. Gold.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 1992
B. A. Barnett; C. Boswell; John A. J. Matthews; J. Skarha; F. D. Snider; A. Spies; J. Tseng; S. Vejcik; H. Carter; B. Flaugher; B. Gonzales; M. Hrycyk; C. Nelson; S. Segler; T. Shaw; P. Tipton; S. Tkaczyk; K. Turner; W. Carithers; R. Ely; M. Gold; C. Haber; S. Holland; S. Kleinfelder; T. Merrick; O. Schneider; W. C. Wester; M. Wong; D. Amidei; Paul F. Derwent
Abstract The mechanical design and construction progress of the CDF silicon vertex detector is described. Results on the location accuracy of the silicon strip detectors are presented and indicate an initial placement uncertainty of less than 10 μm. The water and gas cooling system, which is constructed of low mass materials and is used to remove heat from the readout electronics, is briefly described. Measurements of the performance of the silicon strip detectors are also given and show > 98.5% functioning strips for the assembled SVX detector.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 1992
F. Bedeschi; S. Dellagnello; S. Galeotti; M. Mariotti; A. Menzione; Roberto Paoletti; F. Raffaelli; F. Tartarelli; N. Turini; F. Zetti; R. Ely; M. Gold; C. Haber; A. Schindler; O. Schneider; W. Wester; M. Wong; D. Amidei; P. Tipton; S. Tkaczyk; H. Carter; M. Hrycyk; N. Bacchetta; D. Bisello; G. Busetto; M. Loreti; L. Pescara; A. Castro; C. Boswell; J. Skarha
Abstract An SVX sector prototype was operated at Fermilab in a configuration very close to the version to be installed in CDF. The sparse readout features of the SVXD chip [1,2], which provide the local data compaction that is necessary to deal with the detector high number of channels (40K) and typical Tevatron luminosities, were tested for the first time with a 230 GeV/ c pion beam. A good background rejection and high hit efficiency was demonstrated in this mode of operation, with adequate signal to noise ratio and spatial resolution.
Physical Review D | 1990
F. Abe; D. Amidei; G. Apollinari; G. Ascoli; M. Atac; P. Auchincloss; A. Baden; A. Barbaro-Galtieri; V. E. Barnes; F. Bedeschi; S. Behrends; Stefano Belforte; G. Bellettini; J. Bellinger; J. Bensinger; A. Beretvas; P. Berge; S. Bertolucci; S. Bhadra; M. Binkley; R. E. Blair; C. Blocker; J. Bofill; A. W. Booth; G. Brandenburg; D. Brown; A. Byon; K. L. Byrum; M. Campbell; R. Carey
We present the dijet invariant-mass distribution in the region between 60 and 500 GeV, measured in 1.8-TeV {ital {bar p}p} collisions in the Collider Detector at Fermilab. Jets are restricted to the pseudorapidity interval {vert bar}{eta}{vert bar}{lt}0.7. Data are compared with QCD calculations; axigluons are excluded with 95% confidence in the region 120{lt}{ital M}{sub {ital A}}{lt}210 GeV for axigluon width {Gamma}{sub {ital A}}={ital N}{alpha}{sub s}{ital M}{sub {ital A}}/6, with {ital N}=5.
Physical Review D | 1990
F. Abe; D. Amidei; G. Apollinari; G. Ascoli; M. Atac; P. Auchincloss; A. Baden; A. Barbaro-Galtieri; V. E. Barnes; F. Bedeschi; Stefano Belforte; G. Bellettini; J. Bellinger; J. Bensinger; A. Beretvas; P. Berge; S. Bertolucci; S. Bhadra; M. Binkley; R. E. Blair; C. Blocker; J. Bofill; A. W. Booth; G. Brandenburg; D. Brown; A. Byon; K. L. Byrum; M. Campbell; R. Carey; W. Carithers
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