TY - JOUR
T1 - Status and Performance of New Silicon Stripixel Detector for the PHENIX Experiment at RHIC
T2 - Beta Source, Cosmic-rays and Proton Beam at 120 GeV
AU - Nouicer, R.
AU - Akiba, Y.
AU - Bennett, R.
AU - Boyle, K.
AU - Cianciolo, V.
AU - Deshpande, A.
AU - Dion, A.
AU - Eggleston, M.
AU - Enokizono, A.
AU - Kaneti, S.
AU - Mannel, E. J.
AU - Oglvie, C.
AU - Pei, H.
AU - Sukhanov, A.
AU - Taneja, S.
AU - Togawa, M.
PY - 2009
Y1 - 2009
N2 - We are constructing a Silicon Vertex Tracker detector (VTX) for the PHENIX experiment at RHIC. Our main motivation is to enable measurements of heavy flavor production (charm and beauty) in p+p, p+d and A+A collisions. Such data will illuminate the properties of the matter created in high-energy heavy-ion collisions. The measurements also will reveal the distribution of gluons in protons from p+p collisions. The VTX detector consists of four layers of barrel detectors and covers |η|<1.2, and almost a 2π in azimuth. The inner two silicon barrels consist of silicon pixel sensors; their technology accords with that of the ALICE1LHCB sensor-readout hybrid. The outer two barrels are silicon stripixel detectors with a new ''spiral'' design, and a single-sided sensor with 2-dimensional (X, U) readout. In this paper, we describe the silicon stripixel detector and discuss its performance, including its response to electrons from a beta source (90Sr), muons from cosmic-rays, and a 120 GeV proton beam. The results from the proton beam demonstrate that the principle of two-dimensional position sensitivity based on charge sharing works; the signal-to-noise value is 10.4, the position resolution is 33.6 μm for X-stripixel (35.2 μm for U-stripixel), and the tracking efficiencies in the X- and U-stripixels are, over 98.9±0.2%. The stripixel detector within the VTX project is in the pre-production phase.
AB - We are constructing a Silicon Vertex Tracker detector (VTX) for the PHENIX experiment at RHIC. Our main motivation is to enable measurements of heavy flavor production (charm and beauty) in p+p, p+d and A+A collisions. Such data will illuminate the properties of the matter created in high-energy heavy-ion collisions. The measurements also will reveal the distribution of gluons in protons from p+p collisions. The VTX detector consists of four layers of barrel detectors and covers |η|<1.2, and almost a 2π in azimuth. The inner two silicon barrels consist of silicon pixel sensors; their technology accords with that of the ALICE1LHCB sensor-readout hybrid. The outer two barrels are silicon stripixel detectors with a new ''spiral'' design, and a single-sided sensor with 2-dimensional (X, U) readout. In this paper, we describe the silicon stripixel detector and discuss its performance, including its response to electrons from a beta source (90Sr), muons from cosmic-rays, and a 120 GeV proton beam. The results from the proton beam demonstrate that the principle of two-dimensional position sensitivity based on charge sharing works; the signal-to-noise value is 10.4, the position resolution is 33.6 μm for X-stripixel (35.2 μm for U-stripixel), and the tracking efficiencies in the X- and U-stripixels are, over 98.9±0.2%. The stripixel detector within the VTX project is in the pre-production phase.
KW - DE/dx detectors
KW - Heavyion detectors
KW - Particle tracking detectors
KW - Si microstrip and pad detectors
UR - http://www.scopus.com/inward/record.url?scp=70449369127&partnerID=8YFLogxK
U2 - 10.1088/1748-0221/4/04/P04011
DO - 10.1088/1748-0221/4/04/P04011
M3 - Article
AN - SCOPUS:70449369127
SN - 1748-0221
VL - 4
JO - Journal of Instrumentation
JF - Journal of Instrumentation
IS - 4
M1 - P04011
ER -