Large-area balloon-borne polarized gamma ray observer (PoGO)

2003 IEEE Nuclear Science Symposium. Conference Record (IEEE Cat. No.03CH37515) Pub Date : 2003-12-01 DOI:10.1109/NSSMIC.2003.1352208

R. BIanford, P. Chen, T. Kamae, G. Madejski, J. Ng, T. Mizuno, H. Tajima, T. Thurston, L. Barbier, P. Bloser, T. Cline, S. Hunter, A. Harding, J. Krizmanic, J. Mitchell, R. Streitmatter, J. Tueller, E. Groth, R. Fernholz, D. Marlow, G. Bogaert, S. Gunji, H. Sakurai, Y. Saito, T. Takahashi, J. Kataoka, N. Kawai, Y. Fukazawa, P. Carlson, W. Klamra, M. Pearce, C. Bjornsson, C. Fransson, S. Larsson, F. Ryde

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引用次数: 5

Abstract

We are developing a new balloon-borne instrument (PoGO), to measure polarization of soft gamma rays (25-200 keV) using asymmetry in azimuth angle distribution of Compton scattering. PoGO will detect 10% polarization in 100mCrab sources in a 6-8 hour observation and bring a new dimension to studies on gamma ray emission/transportation mechanism in pulsars, AGNs, black hole binaries, and neutron star surface. The concept is an adaptation to polarization measurements of well-type phoswich counter technology used in balloon-borne experiments (Welcome-1) and AstroE2 Hard X-ray Detector. PoGO consists of close-packed array of 397 hexagonal well-type phoswich counters. Each unit is composed of a long thin tube (well) of slow plastic scintillator, a solid rod of fast plastic scintillator, and a short BGO at the base. A photomultiplier coupled to the end of the BGO detects light from all 3 scintillators. The rods with decay times < 10 ns, are used as the active elements; while the wells and BGOs, with decay times /spl sim/ 250 ns are used as active anti-coincidence. The fast and slow signals are separated out electronically. When gamma rays entering the field-of-view (fwhm /spl sim/3deg/sup 2/) strike a fast scintillator, some are Compton scattered. A fraction of the scattered photons are absorbed in another rod (or undergo a second scatter). A valid event requires one clean fast signal of pulse-height compatible with photo-absorption (> 20 keV) and one or more compatible with Compton scattering (< 10 keV). Studies based on EGS4 (with polarization features) and Geant4 predict excellent background rejection and high sensitivity.

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大面积球载偏振伽马射线观测仪

我们正在开发一种新的球载仪器(PoGO)，利用康普顿散射方位角分布的不对称性来测量软伽马射线(25-200 keV)的偏振。PoGO将在6-8小时的观测时间内探测到100mCrab源的10%极化，为脉冲星、agn、黑洞双星和中子星表面伽玛射线发射/输运机制的研究带来新的维度。该概念适用于球囊实验(Welcome-1)和AstroE2硬x射线探测器中使用的井型光子计数器技术的偏振测量。PoGO由397个六边形井型光控计数器组成。每个单元由一根细长的慢速塑料闪烁体管(井)、一根固体的快速塑料闪烁体棒和底部的短BGO组成。连接到BGO末端的光电倍增管可以检测所有3个闪烁体发出的光。将衰变时间< 10ns的棒作为活性元素;采用衰减时间为/spl sim/ 250 ns的井和bgo作为主动反重合。快慢信号通过电子方式分离。当伽玛射线进入视场(fwhm / sp1sim /3deg/sup /)击中一个快速闪烁体时，一些是康普顿散射。一部分散射的光子被另一根棒吸收(或经历第二次散射)。一个有效的事件需要一个干净的快速信号，其脉冲高度与光吸收兼容(> 20 keV)，一个或多个与康普顿散射兼容(< 10 keV)。基于EGS4(具有极化特征)和Geant4的研究预测了良好的背景抑制和高灵敏度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2003 IEEE Nuclear Science Symposium. Conference Record (IEEE Cat. No.03CH37515)

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