Data acquisition system for the PoGOLite astronomical hard X-ray polarimeter

T. Tanaka; M. Arimoto; M. Axelsson; C. I. Björnsson; G. Bogaert; P. Carlson; M. Cooney; W. Craig; O. Engdegård; Y. Fukazawa; S. Gunji; L. Hjalmarsdotter; T. Kamae; Y. Kanai; J. Kataoka; J. Katsuta; N. Kawai; J. Kazejev; M. Kiss; W. Klamra; S. Larsson; G. Madejski; C. Marini Bettolo; T. Mizuno; J. Ng; M. Nomachi; H. Odaka; M. Pearce; L. Ruckman; F. Ryde; H. Tajima; H. Takahashi; T. Takahashi; T. Thurston; M. Ueno; G. Varner; T. Ylinen; H. Yoshida; T. Yuasa

doi:10.1109/NSSMIC.2007.4436365

Data acquisition system for the PoGOLite astronomical hard X-ray polarimeter

T. Tanaka^*, M. Arimoto, M. Axelsson, C. I. Björnsson, G. Bogaert, P. Carlson, M. Cooney, W. Craig, O. Engdegård, Y. Fukazawa, S. Gunji, L. Hjalmarsdotter, T. Kamae, Y. Kanai, J. Kataoka, J. Katsuta, N. Kawai, J. Kazejev, M. Kiss, W. KlamraS. Larsson, G. Madejski, C. Marini Bettolo, T. Mizuno, J. Ng, M. Nomachi, H. Odaka, M. Pearce, L. Ruckman, F. Ryde, H. Tajima, H. Takahashi, T. Takahashi, T. Thurston, M. Ueno, G. Varner, T. Ylinen, H. Yoshida, T. Yuasa

^*この研究の対応する著者

研究成果: Conference contribution

3 被引用数 (Scopus)

抄録

The PoGOLite is a new balloon-borne instrument to measure the polarization of hard X-rays / soft gamma-rays in the 25-80 keV energy range for the first time. In order to detect the polarization, PoGOLite measures the azimuthal angle asymmetry of Compton scattering and the subsequent photo-absorption in an array of detectors. This array consists of 217 well-type phoswich detector cells (PDCs) surrounded by a side anti-coincidence shield (SAS) composed of 54 segments of BGO crystals. At balloon altitude, the intensity of backgrounds due to cosmic-ray charged particles, atmospheric gamma-rays and neutrons is extremely high, typically a few hundred Hz per unit. Hence the data acquisition (DAQ) system of PoGOLite is required to handle more than 270 signals simultaneously, and detect weak signals from astrophysical objects (100mCrab, 1.5cs^-1 in 25-80 keV ) under such a severe environment. We have developed a new DAQ system consisting of front-end electronics, waveform digitizer, Field Programmable Gate Array (FPGA) and a microprocessor. In this system, all output signals of PDC / SAS are fed into individual charge-sensitive amplifier and then digitized to 12 bit accuracy at 24MSa/s by pipelined analog to digital converters. A DAQ board for the PDC records waveforms which will be examined in an off-line analysis to distinguish signals from the background events and measure the energy spectrum and polarization of targets. A board for the SAS records hit pattern to be used for background rejection. It also continuously records a pulse-height analysis (PHA) histogram to monitor incident background flux. These basic functions of the DAQ system were verified in a series of beam tests.

本文言語	English
ホスト出版物のタイトル	2007 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS-MIC
ページ	445-449
ページ数	5
DOI	https://doi.org/10.1109/NSSMIC.2007.4436365
出版ステータス	Published - 2007
外部発表	はい
イベント	2007 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS-MIC - Honolulu, HI, United States 継続期間: 2007 10月 27 → 2007 11月 3

出版物シリーズ

名前	IEEE Nuclear Science Symposium Conference Record
巻	1
ISSN（印刷版）	1095-7863

Conference

Conference	2007 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS-MIC
国/地域	United States
City	Honolulu, HI
Period	07/10/27 → 07/11/3

ASJC Scopus subject areas

放射線
核物理学および高エネルギー物理学
放射線学、核医学およびイメージング

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10.1109/NSSMIC.2007.4436365

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引用スタイル

Tanaka, T., Arimoto, M., Axelsson, M., Björnsson, C. I., Bogaert, G., Carlson, P., Cooney, M., Craig, W., Engdegård, O., Fukazawa, Y., Gunji, S., Hjalmarsdotter, L., Kamae, T., Kanai, Y., Kataoka, J., Katsuta, J., Kawai, N., Kazejev, J., Kiss, M., ... Yuasa, T. (2007). Data acquisition system for the PoGOLite astronomical hard X-ray polarimeter. In 2007 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS-MIC (pp. 445-449). 記事 4436365 (IEEE Nuclear Science Symposium Conference Record; Vol. 1). https://doi.org/10.1109/NSSMIC.2007.4436365

Tanaka, T, Arimoto, M, Axelsson, M, Björnsson, CI, Bogaert, G, Carlson, P, Cooney, M, Craig, W, Engdegård, O, Fukazawa, Y, Gunji, S, Hjalmarsdotter, L, Kamae, T, Kanai, Y, Kataoka, J, Katsuta, J, Kawai, N, Kazejev, J, Kiss, M, Klamra, W, Larsson, S, Madejski, G, Bettolo, CM, Mizuno, T, Ng, J, Nomachi, M, Odaka, H, Pearce, M, Ruckman, L, Ryde, F, Tajima, H, Takahashi, H, Takahashi, T, Thurston, T, Ueno, M, Varner, G, Ylinen, T, Yoshida, H & Yuasa, T 2007, Data acquisition system for the PoGOLite astronomical hard X-ray polarimeter. in 2007 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS-MIC., 4436365, IEEE Nuclear Science Symposium Conference Record, vol. 1, pp. 445-449, 2007 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS-MIC, Honolulu, HI, United States, 07/10/27. https://doi.org/10.1109/NSSMIC.2007.4436365

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abstract = "The PoGOLite is a new balloon-borne instrument to measure the polarization of hard X-rays / soft gamma-rays in the 25-80 keV energy range for the first time. In order to detect the polarization, PoGOLite measures the azimuthal angle asymmetry of Compton scattering and the subsequent photo-absorption in an array of detectors. This array consists of 217 well-type phoswich detector cells (PDCs) surrounded by a side anti-coincidence shield (SAS) composed of 54 segments of BGO crystals. At balloon altitude, the intensity of backgrounds due to cosmic-ray charged particles, atmospheric gamma-rays and neutrons is extremely high, typically a few hundred Hz per unit. Hence the data acquisition (DAQ) system of PoGOLite is required to handle more than 270 signals simultaneously, and detect weak signals from astrophysical objects (100mCrab, 1.5cs-1 in 25-80 keV ) under such a severe environment. We have developed a new DAQ system consisting of front-end electronics, waveform digitizer, Field Programmable Gate Array (FPGA) and a microprocessor. In this system, all output signals of PDC / SAS are fed into individual charge-sensitive amplifier and then digitized to 12 bit accuracy at 24MSa/s by pipelined analog to digital converters. A DAQ board for the PDC records waveforms which will be examined in an off-line analysis to distinguish signals from the background events and measure the energy spectrum and polarization of targets. A board for the SAS records hit pattern to be used for background rejection. It also continuously records a pulse-height analysis (PHA) histogram to monitor incident background flux. These basic functions of the DAQ system were verified in a series of beam tests.",

author = "T. Tanaka and M. Arimoto and M. Axelsson and Bj{\"o}rnsson, {C. I.} and G. Bogaert and P. Carlson and M. Cooney and W. Craig and O. Engdeg{\aa}rd and Y. Fukazawa and S. Gunji and L. Hjalmarsdotter and T. Kamae and Y. Kanai and J. Kataoka and J. Katsuta and N. Kawai and J. Kazejev and M. Kiss and W. Klamra and S. Larsson and G. Madejski and Bettolo, {C. Marini} and T. Mizuno and J. Ng and M. Nomachi and H. Odaka and M. Pearce and L. Ruckman and F. Ryde and H. Tajima and H. Takahashi and T. Takahashi and T. Thurston and M. Ueno and G. Varner and T. Ylinen and H. Yoshida and T. Yuasa",

year = "2007",

doi = "10.1109/NSSMIC.2007.4436365",

language = "English",

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series = "IEEE Nuclear Science Symposium Conference Record",

pages = "445--449",

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T1 - Data acquisition system for the PoGOLite astronomical hard X-ray polarimeter

AU - Tanaka, T.

AU - Arimoto, M.

AU - Axelsson, M.

AU - Björnsson, C. I.

AU - Bogaert, G.

AU - Carlson, P.

AU - Cooney, M.

AU - Craig, W.

AU - Engdegård, O.

AU - Fukazawa, Y.

AU - Gunji, S.

AU - Hjalmarsdotter, L.

AU - Kamae, T.

AU - Kanai, Y.

AU - Kataoka, J.

AU - Katsuta, J.

AU - Kawai, N.

AU - Kazejev, J.

AU - Kiss, M.

AU - Klamra, W.

AU - Larsson, S.

AU - Madejski, G.

AU - Bettolo, C. Marini

AU - Mizuno, T.

AU - Ng, J.

AU - Nomachi, M.

AU - Odaka, H.

AU - Pearce, M.

AU - Ruckman, L.

AU - Ryde, F.

AU - Tajima, H.

AU - Takahashi, H.

AU - Takahashi, T.

AU - Thurston, T.

AU - Ueno, M.

AU - Varner, G.

AU - Ylinen, T.

AU - Yoshida, H.

AU - Yuasa, T.

PY - 2007

Y1 - 2007

N2 - The PoGOLite is a new balloon-borne instrument to measure the polarization of hard X-rays / soft gamma-rays in the 25-80 keV energy range for the first time. In order to detect the polarization, PoGOLite measures the azimuthal angle asymmetry of Compton scattering and the subsequent photo-absorption in an array of detectors. This array consists of 217 well-type phoswich detector cells (PDCs) surrounded by a side anti-coincidence shield (SAS) composed of 54 segments of BGO crystals. At balloon altitude, the intensity of backgrounds due to cosmic-ray charged particles, atmospheric gamma-rays and neutrons is extremely high, typically a few hundred Hz per unit. Hence the data acquisition (DAQ) system of PoGOLite is required to handle more than 270 signals simultaneously, and detect weak signals from astrophysical objects (100mCrab, 1.5cs-1 in 25-80 keV ) under such a severe environment. We have developed a new DAQ system consisting of front-end electronics, waveform digitizer, Field Programmable Gate Array (FPGA) and a microprocessor. In this system, all output signals of PDC / SAS are fed into individual charge-sensitive amplifier and then digitized to 12 bit accuracy at 24MSa/s by pipelined analog to digital converters. A DAQ board for the PDC records waveforms which will be examined in an off-line analysis to distinguish signals from the background events and measure the energy spectrum and polarization of targets. A board for the SAS records hit pattern to be used for background rejection. It also continuously records a pulse-height analysis (PHA) histogram to monitor incident background flux. These basic functions of the DAQ system were verified in a series of beam tests.

AB - The PoGOLite is a new balloon-borne instrument to measure the polarization of hard X-rays / soft gamma-rays in the 25-80 keV energy range for the first time. In order to detect the polarization, PoGOLite measures the azimuthal angle asymmetry of Compton scattering and the subsequent photo-absorption in an array of detectors. This array consists of 217 well-type phoswich detector cells (PDCs) surrounded by a side anti-coincidence shield (SAS) composed of 54 segments of BGO crystals. At balloon altitude, the intensity of backgrounds due to cosmic-ray charged particles, atmospheric gamma-rays and neutrons is extremely high, typically a few hundred Hz per unit. Hence the data acquisition (DAQ) system of PoGOLite is required to handle more than 270 signals simultaneously, and detect weak signals from astrophysical objects (100mCrab, 1.5cs-1 in 25-80 keV ) under such a severe environment. We have developed a new DAQ system consisting of front-end electronics, waveform digitizer, Field Programmable Gate Array (FPGA) and a microprocessor. In this system, all output signals of PDC / SAS are fed into individual charge-sensitive amplifier and then digitized to 12 bit accuracy at 24MSa/s by pipelined analog to digital converters. A DAQ board for the PDC records waveforms which will be examined in an off-line analysis to distinguish signals from the background events and measure the energy spectrum and polarization of targets. A board for the SAS records hit pattern to be used for background rejection. It also continuously records a pulse-height analysis (PHA) histogram to monitor incident background flux. These basic functions of the DAQ system were verified in a series of beam tests.

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U2 - 10.1109/NSSMIC.2007.4436365

DO - 10.1109/NSSMIC.2007.4436365

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SN - 1424409233

SN - 9781424409235

T3 - IEEE Nuclear Science Symposium Conference Record

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BT - 2007 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS-MIC

T2 - 2007 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS-MIC

Y2 - 27 October 2007 through 3 November 2007

ER -

Data acquisition system for the PoGOLite astronomical hard X-ray polarimeter

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