LOCALIZATION OF GAMMA-RAY BURSTS USING THE FERMI GAMMA-RAY BURST MONITOR

Connaughton V.; Briggs M. S.; Goldstein A.; Meegan C. A.; Paciesas W. S.; Preece R. D.; Wilson-Hodge C. A.; Gibby M. H.; Greiner J.; Gruber D.; Jenke P.; Kippen R. M.; Pelassa V.; Xiong S.; Yu H. -F.; Bhat P. N.; Burgess J. M.; Byrne D.; Fitzpatrick G.; Foley S.; Giles M. M.; Guiriec S.; Van der Horst A. J.; Von Kienlin A.; McBreen S.; McGlynn S.; Tierney D.; Zhang B. -B.

首页> 外文期刊>The Astrophysical Journal. Supplement Series >LOCALIZATION OF GAMMA-RAY BURSTS USING THE FERMI GAMMA-RAY BURST MONITOR

【24h】

LOCALIZATION OF GAMMA-RAY BURSTS USING THE FERMI GAMMA-RAY BURST MONITOR

机译：使用Fermi Gamma-Ray突发监视器定位伽马射线突发

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

The Fermi Gamma-ray Burst Monitor (GBM) has detected over 1400 gamma-ray bursts (GRBs) since it began science operations in 2008 July. We use a subset of over 300 GRBs localized by instruments such as Swift, the Fermi Large Area Telescope, INTEGRAL, and MAXI, or through triangulations from the InterPlanetary Network, to analyze the accuracy of GBM GRB localizations. We find that the reported statistical uncertainties on GBM localizations, which can be as small as 1 degrees, underestimate the distance of the GBM positions to the true GRB locations and we attribute this to systematic uncertainties. The distribution of systematic uncertainties is well represented (68% confidence level) by a 3.degrees 7 Gaussian with a non-Gaussian tail that contains about 10% of GBM-detected GRBs and extends to approximately 14 degrees. A more complex model suggests that there is a dependence of the systematic uncertainty on the position of the GRB in spacecraft coordinates, with GRBs in the quadrants on the Y axis better localized than those on the X axis.

机译：Fermi Gamma-ray突发监视器（GBM）检测到2008年7月开始科学业务以来，检测到超过1400伽马射线爆发（GRB）。我们使用诸如Swift，Fermi大面积望远镜，整体和MAXI等仪器本地化的300多个GRB的子集，或通过行星际网络的三角形来分析GBM GRB本地化的准确性。我们发现，GBM本地化的报告统计不确定性可以小于1度，低估GBM位置对真正的GRB位置的距离，并将其归因于系统的不确定性。系统不确定因素的分布优质代表（68％的置信水平），由3.Degrees 7高斯，具有非高斯尾部，其含有约10％的GBM检测到的GMB，并延伸到大约14度。更复杂的模型表明系统不确定性在航天器坐标中的地位上有系统的不确定性，在y轴上的象限中的GRB比X轴更好地定位。

著录项

来源
《The Astrophysical Journal. Supplement Series》 |2015年第2期|共27页
作者
Connaughton V.; Briggs M. S.; Goldstein A.; Meegan C. A.; Paciesas W. S.; Preece R. D.; Wilson-Hodge C. A.; Gibby M. H.; Greiner J.; Gruber D.; Jenke P.; Kippen R. M.; Pelassa V.; Xiong S.; Yu H. -F.; Bhat P. N.; Burgess J. M.; Byrne D.; Fitzpatrick G.; Foley S.; Giles M. M.; Guiriec S.; Van der Horst A. J.; Von Kienlin A.; McBreen S.; McGlynn S.; Tierney D.; Zhang B. -B.;
展开▼
作者单位

Univ Alabama CSPAR Huntsville AL 35899 USA;

Univ Alabama CSPAR Huntsville AL 35899 USA;

NASA Astrophys Off Marshall Space Flight Ctr Huntsville AL 35812 USA;

Univ Alabama CSPAR Huntsville AL 35899 USA;

NASA George C Marshall Space Flight Ctr Univ Space Res Assoc Huntsville AL 35812 USA;

Univ Alabama Dept Space Sci Huntsville AL 35899 USA;

NASA Astrophys Off Marshall Space Flight Ctr Huntsville AL 35812 USA;

Jacobs Technol Inc Huntsville AL USA;

Max Planck Inst Extraterr Phys D-85748 Garching Germany;

Planetarium Sudtirol I-39053 Karneid Italy;

Univ Alabama CSPAR Huntsville AL 35899 USA;

Los Alamos Natl Lab Los Alamos NM 87545 USA;

Univ Alabama CSPAR Huntsville AL 35899 USA;

Univ Alabama CSPAR Huntsville AL 35899 USA;

Max Planck Inst Extraterr Phys D-85748 Garching Germany;

Univ Alabama CSPAR Huntsville AL 35899 USA;

Univ Alabama CSPAR Huntsville AL 35899 USA;

Univ Coll Dublin Sch Phys Dublin 4 Ireland;

Univ Coll Dublin Sch Phys Dublin 4 Ireland;

Univ Coll Dublin Sch Phys Dublin 4 Ireland;

Jacobs Technol Inc Huntsville AL USA;

NASA Goddard Space Flight Ctr Greenbelt MD 20771 USA;

Univ Amsterdam Astron Inst NL-1098 XH Amsterdam Netherlands;

Max Planck Inst Extraterr Phys D-85748 Garching Germany;

Univ Coll Dublin Sch Phys Dublin 4 Ireland;

Univ Coll Dublin Sch Phys Dublin 4 Ireland;

Univ Coll Dublin Sch Phys Dublin 4 Ireland;

Univ Alabama CSPAR Huntsville AL 35899 USA;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类天体物理学;
关键词
gamma-ray burst: general; techniques: miscellaneous;

机译：伽马射线爆裂：一般;技术：杂项;

相似文献

外文文献
中文文献
专利

1. LOCALIZATION OF GAMMA-RAY BURSTS USING THE FERMI GAMMA-RAY BURST MONITOR [J] . Connaughton V., Briggs M. S., Goldstein A., The Astrophysical Journal. Supplement Series . 2015,第2期

机译：使用Fermi Gamma-Ray突发监视器定位伽马射线突发
2. Anomalies in low-energy gamma-ray burst spectra with the Fermi Gamma-ray Burst Monitor [J] . D. Tierney, S. McBreen, R. D. Preece, Astronomy and astrophysics . 2013,第19期

机译：费米伽马射线爆裂监测仪在低能伽马射线爆裂光谱中的异常
3. Anomalies in low-energy gamma-ray burst spectra with the Fermi Gamma-ray Burst Monitor [J] . D. Tierney, S. McBreen, R. D. Preece, Astronomy and astrophysics . 2013,第19期

机译：费米伽马射线爆裂监测仪在低能伽马射线爆裂光谱中的异常
4. The Search for High Energy Extended Emission by Fermi-LAT from Swift-localized Gamma-ray Bursts [C] . J. Chiang, J. L. Racusin Gamma Ray Bursts . 2011

机译：搜索Fermi-Lat从Swift局部伽马射线爆发的高能量扩展发射
5. Extragalactic content of gamma-ray burst localizations. [D] . Larson, Samuel Bradley. 1997

机译：伽马射线爆发定位的河外内容。
6. Gamma-ray bursts and their use as cosmic probes [O] . Patricia Schady 2017

机译：伽马射线爆发及其作为宇宙探测器的用途
7. Synchrotron cooling in energetic gamma-ray bursts observed by the Fermi Gamma-Ray Burst Monitor [O] . Yu Hoi Fung, Greiner Jochen, van Eerten Hendrik, 2015

机译：费米伽马射线爆裂监测仪观测到高能伽马射线爆发中的同步加速器冷却

LOCALIZATION OF GAMMA-RAY BURSTS USING THE FERMI GAMMA-RAY BURST MONITOR

摘要

著录项

相似文献

相关主题

期刊订阅