Status and overview of development of the silicon pixel detector for the PHENIX experiment at the BNL RHIC

R. Ichimiya; N. Apadula; Y. Akiba; E. Atomssa; S. Chollet; O. Drapier; H. En'Yo; K. Fujiwara; F. Gastaldi; R. Granier De Cassagnac; M. Kasai; K. Kurita; M. Kurosawa; E. J. Mannel; H. Ohnishi; Y. Onuki; R. Pak; C. Pancake; M. Sekimoto; E. Shafto; W. Sondheim; A. Taketani

doi:10.1088/1748-0221/4/05/P05001

Status and overview of development of the silicon pixel detector for the PHENIX experiment at the BNL RHIC

R. Ichimiya
, N. Apadula
, Y. Akiba
, E. Atomssa
, S. Chollet
, O. Drapier
, H. En'Yo
, K. Fujiwara
, F. Gastaldi
, R. Granier De Cassagnac
, M. Kasai
, K. Kurita
, M. Kurosawa
, E. J. Mannel
, H. Ohnishi
, Y. Onuki
, R. Pak
, C. Pancake
, M. Sekimoto
, E. Shafto

W. Sondheim, A. Taketani

Research output: Contribution to journal › Article › peer-review

Abstract

We have developed a silicon pixel detector to enhance the physics capabilities of the PHENIX experiment. This detector, consisting of two layers of sensors, will be installed around the beam pipe at the collision point and covers a pseudo-rapidity of |η| < 1.2 and an azimuth angle of |φ| ∼ 2π. The detector uses 200 μm thick silicon sensors and readout chips developed for the ALICE experiment. In order to meet the PHENIX DAQ readout requirements, it is necessary to read out 4 readout chips in parallel. The physics goals of PHENIX require that radiation thickness of the detector be minimized. To meet these criteria, the detector has been designed and developed. In this paper, we report the current status of the development, especially the development of the low-mass readout bus and the front-end readout electronics.

Original language	English
Article number	P05001
Journal	Journal of Instrumentation
Volume	4
Issue number	5
DOIs	https://doi.org/10.1088/1748-0221/4/05/P05001
Publication status	Published - 17 Nov 2009

Keywords

Instrumentation and methods for eavy-ion reactions and fission studies
Particle tracking detectors

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Ichimiya, R., Apadula, N., Akiba, Y., Atomssa, E., Chollet, S., Drapier, O., En'Yo, H., Fujiwara, K., Gastaldi, F., Granier De Cassagnac, R., Kasai, M., Kurita, K., Kurosawa, M., Mannel, E. J., Ohnishi, H., Onuki, Y., Pak, R., Pancake, C., Sekimoto, M., ... Taketani, A. (2009). Status and overview of development of the silicon pixel detector for the PHENIX experiment at the BNL RHIC. Journal of Instrumentation, 4(5), Article P05001. https://doi.org/10.1088/1748-0221/4/05/P05001

@article{a4b42ec1e3ae434ca3ab9fc33b3b25e8,

title = "Status and overview of development of the silicon pixel detector for the PHENIX experiment at the BNL RHIC",

abstract = "We have developed a silicon pixel detector to enhance the physics capabilities of the PHENIX experiment. This detector, consisting of two layers of sensors, will be installed around the beam pipe at the collision point and covers a pseudo-rapidity of |η| < 1.2 and an azimuth angle of |φ| ∼ 2π. The detector uses 200 μm thick silicon sensors and readout chips developed for the ALICE experiment. In order to meet the PHENIX DAQ readout requirements, it is necessary to read out 4 readout chips in parallel. The physics goals of PHENIX require that radiation thickness of the detector be minimized. To meet these criteria, the detector has been designed and developed. In this paper, we report the current status of the development, especially the development of the low-mass readout bus and the front-end readout electronics.",

keywords = "Instrumentation and methods for eavy-ion reactions and fission studies, Particle tracking detectors",

author = "R. Ichimiya and N. Apadula and Y. Akiba and E. Atomssa and S. Chollet and O. Drapier and H. En'Yo and K. Fujiwara and F. Gastaldi and \{Granier De Cassagnac\}, R. and M. Kasai and K. Kurita and M. Kurosawa and Mannel, \{E. J.\} and H. Ohnishi and Y. Onuki and R. Pak and C. Pancake and M. Sekimoto and E. Shafto and W. Sondheim and A. Taketani",

year = "2009",

month = nov,

day = "17",

doi = "10.1088/1748-0221/4/05/P05001",

language = "English",

volume = "4",

journal = "Journal of Instrumentation",

issn = "1748-0221",

number = "5",

}

Ichimiya, R, Apadula, N, Akiba, Y, Atomssa, E, Chollet, S, Drapier, O, En'Yo, H, Fujiwara, K, Gastaldi, F, Granier De Cassagnac, R, Kasai, M, Kurita, K, Kurosawa, M, Mannel, EJ, Ohnishi, H, Onuki, Y, Pak, R, Pancake, C, Sekimoto, M, Shafto, E, Sondheim, W & Taketani, A 2009, 'Status and overview of development of the silicon pixel detector for the PHENIX experiment at the BNL RHIC', Journal of Instrumentation, vol. 4, no. 5, P05001. https://doi.org/10.1088/1748-0221/4/05/P05001

TY - JOUR

T1 - Status and overview of development of the silicon pixel detector for the PHENIX experiment at the BNL RHIC

AU - Ichimiya, R.

AU - Apadula, N.

AU - Akiba, Y.

AU - Atomssa, E.

AU - Chollet, S.

AU - Drapier, O.

AU - En'Yo, H.

AU - Fujiwara, K.

AU - Gastaldi, F.

AU - Granier De Cassagnac, R.

AU - Kasai, M.

AU - Kurita, K.

AU - Kurosawa, M.

AU - Mannel, E. J.

AU - Ohnishi, H.

AU - Onuki, Y.

AU - Pak, R.

AU - Pancake, C.

AU - Sekimoto, M.

AU - Shafto, E.

AU - Sondheim, W.

AU - Taketani, A.

PY - 2009/11/17

Y1 - 2009/11/17

N2 - We have developed a silicon pixel detector to enhance the physics capabilities of the PHENIX experiment. This detector, consisting of two layers of sensors, will be installed around the beam pipe at the collision point and covers a pseudo-rapidity of |η| < 1.2 and an azimuth angle of |φ| ∼ 2π. The detector uses 200 μm thick silicon sensors and readout chips developed for the ALICE experiment. In order to meet the PHENIX DAQ readout requirements, it is necessary to read out 4 readout chips in parallel. The physics goals of PHENIX require that radiation thickness of the detector be minimized. To meet these criteria, the detector has been designed and developed. In this paper, we report the current status of the development, especially the development of the low-mass readout bus and the front-end readout electronics.

AB - We have developed a silicon pixel detector to enhance the physics capabilities of the PHENIX experiment. This detector, consisting of two layers of sensors, will be installed around the beam pipe at the collision point and covers a pseudo-rapidity of |η| < 1.2 and an azimuth angle of |φ| ∼ 2π. The detector uses 200 μm thick silicon sensors and readout chips developed for the ALICE experiment. In order to meet the PHENIX DAQ readout requirements, it is necessary to read out 4 readout chips in parallel. The physics goals of PHENIX require that radiation thickness of the detector be minimized. To meet these criteria, the detector has been designed and developed. In this paper, we report the current status of the development, especially the development of the low-mass readout bus and the front-end readout electronics.

KW - Instrumentation and methods for eavy-ion reactions and fission studies

KW - Particle tracking detectors

U2 - 10.1088/1748-0221/4/05/P05001

DO - 10.1088/1748-0221/4/05/P05001

M3 - Article

AN - SCOPUS:70449367344

SN - 1748-0221

VL - 4

JO - Journal of Instrumentation

JF - Journal of Instrumentation

IS - 5

M1 - P05001

ER -

Status and overview of development of the silicon pixel detector for the PHENIX experiment at the BNL RHIC

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Keywords

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