Gerrit Jan van Nieuwenhuizen

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Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2000

The PHOBOS silicon pad sensors

B. B. Back; R.R. Betts; Markus Friedl; R. Ganz; K. Gulbrandsen; Burt Holzman; W. Kucewicz; Willis Lin; Johannes Mülmenstädt; Gerrit Jan van Nieuwenhuizen; R. Nouicer; H. Pernegger; M. Reuter; P. Sarin; Vincent Tsay; C. Vale; B. Wadsworth; A. H. Wuosmaa; Bolek Wyslouch

Abstract PHOBOS is one of the four experiments at the Relativistic Heavy Ion Collider at Brookhaven National Laboratory. PHOBOS utilizes silicon sensors to measure charged particle multiplicity distributions and to track particles in a 2-arm spectrometer. The detector consists of 450 silicon pad sensors. Nine different pad geometries are used to match the different physics needs of the experiment. A relatively high granularity, of up to 1536 channels per sensor, is used in the spectrometer. The multiplicity detector uses 128 and 64 channel sensors and the charge deposition per pad is measured to determine the multiplicity of single events. All sensors are of the double-metal silicon pad type with pad sizes from 1 up to 4 cm 2 . They are produced in Taiwan by the ERSO foundry under supervision of Miracle Co. and National Central University. An extensive testing procedure makes it possible to select sensors suited for use in PHOBOS. Detector modules consisting of up to 5 sensors are read out with integrated chips of either 64 or 128 channels. The test results of the sensors and the performance of the assembled detector modules are discussed.

Nuclear Physics B - Proceedings Supplements | 1999

The PHOBOS silicon sensors

B. B. Back; Russell Richard Betts; R. Ganz; K. Gulbrandsen; Burt Holzman; W. Kucewicz; Willis Lin; Johannes Mülmenstädt; Gerrit Jan van Nieuwenhuizen; R. Nouicer; H. Pernegger; Michael Reuter; P. Sarin; Vincent Tsay; C. Vale; B. Wadsworth; A. H. Wuosmaa; Bolek Wyslouch

Abstract PHOBOS is one of the four experiments at the Relativistic Heavy Ion Collider at Brookhaven National Laboratory. PHOBOS almost exclusively utilizes silicon sensors to measure charged particle multiplicity distributions and to track particles in a 2-arm spectrometer. The detector consists of about 450 silicon pad sensors. Nine different pad geometries are used to match the different physics needs of the experiment. A relatively high granularity, of up to 1536 channels per sensor, is used in the spectrometer. The multiplicity detector uses 128 and 64 channel sensors and the charge deposition per pad is measured to determine the multiplicity of single events. All sensors are of the double-metal silicon pad type with pad sizes from 1 cm 2 up to 4 cm 2 . They are produced in Taiwan by the ERSO foundry under supervision of Miracle Co. and National Central University. An extensive testing procedure makes it possible to select sensors suited for use in PHOBOS. Detector modules consisting of up to five sensors are read out with integrated chips of either 64 or 128 channels. The testing of the sensors and the performance of assembled detector modules is discussed.

APS | 2011

Charged-particle multiplicity and pseudorapidity distributions measured with the PHOBOS detector in Au+Au, Cu+Cu, d+Au, and p+p collisions at ultrarelativistic energies

B. Alver; M. Ballintijn; W. Busza; Patrick Decowski; K. Gulbrandsen; Conor Henderson; J. L. Kane; J. Katzy; P. Kulinich; Wei Li; Constantin Loizides; H. Pernegger; C. Reed; Christof Roland; G. Roland; Leslie Rosenberg; P. Sarin; S.G. Steadman; G. S. F. Stephans; C. Vale; Gerrit Jan van Nieuwenhuizen; S.S. Vaurynovich; R. Verdier; G. I. Veres; B. Wadsworth; Edward Allen Wenger; B. Wyslouch

Elsevier | 2015

Isolation of flow and nonflow correlations by two- and four-particle cumulant measurements of azimuthal harmonics in √s[subscript NN] = 200 GeV Au+Au collisions

Justin Stevens; Gerrit Jan van Nieuwenhuizen

Elsevier | 2014

[J over ψ] polarization in p+p collisions at √s = 200 TeV in STAR

Mitchell L. R. Walker; Gerrit Jan van Nieuwenhuizen; Justin Stevens; J. Balewski; R. Corliss; J. P. Hays-Wehle; William Axel Leight

APS | 2012

Measurement of the W→eν and Z/γ*→e[superscript +]e[superscript -] production cross sections at mid-rapidity in proton-proton collisions at √s=500 GeV

J. Balewski; M. J. Betancourt; R. Corliss; J. P. Hays-Wehle; William Axel Leight; R. Redwine; Joseph Patrick Seele; S.G. Steadman; B. Surrow; Gerrit Jan van Nieuwenhuizen

APS | 2012

Inclusive charged hadron elliptic flow in Au + Au collisions at [√ over S[subscript NN]]=7.7–39 GeV

J. Balewski; M. J. Betancourt; R. Corliss; J. P. Hays-Wehle; William Axel Leight; R. Redwine; Joseph Patrick Seele; S.G. Steadman; G. S. F. Stephans; B. Surrow; Gerrit Jan van Nieuwenhuizen

APS | 2012

Directed and elliptic flow of charged particles in Cu + Cu collisions at √[superscript s][subscript NN]=22.4 GeV

J. Balewski; M. J. Betancourt; R. Corliss; J. P. Hays-Wehle; William Axel Leight; R. Milner; R. Redwine; Joseph Patrick Seele; S.G. Steadman; B. Surrow; Gerrit Jan van Nieuwenhuizen; Margaret R. Walker

APS | 2012

Transverse single-spin asymmetry and cross section for π[superscript 0] and η mesons at large Feynman x in p[superscript ↑]+p collisions at √s=200 GeV

J. Balewski; M. J. Betancourt; R. Corliss; J. P. Hays-Wehle; William Axel Leight; R. Redwine; Joseph Patrick Seele; S.G. Steadman; B. Surrow; Gerrit Jan van Nieuwenhuizen

APS | 2012

System size and energy dependence of near-side dihadron correlations

J. Balewski; M. J. Betancourt; R. Corliss; J. P. Hays-Wehle; William Axel Leight; R. Redwine; Joseph Patrick Seele; S.G. Steadman; B. Surrow; Gerrit Jan van Nieuwenhuizen

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