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The nuclear spectroscopic telescope array (NuSTAR) high-energy X-ray mission

Kristin K. MadsenSpace Radiation Lab., California Institute of Technology (United States)Fiona A. HarrisonSpace Radiation Lab., California Institute of Technology (United States)Hongjun AnMcGill Univ. (Canada)Steven E. BoggsSpace Sciences Lab., Univ. of California, Berkeley (United States)Finn E. ChristensenDTU Space (Denmark)Rick CookSpace Radiation Lab., California Institute of Technology (United States)William W. CraigSpace Sciences Lab., Univ. of California, Berkeley (United States)Karl FörsterSpace Radiation Lab., California Institute of Technology (United States)F. FuerstSpace Radiation Lab., California Institute of Technology (United States)Brian W. GrefenstetteSpace Radiation Lab., California Institute of Technology (United States)Charles J. HaileyColumbia Univ. (United States)Takao KitaguchiRIKEN (Japan)C. B. MarkwardtNASA Goddard Space Flight Ctr. (United States)Peter H. MaoSpace Radiation Lab., California Institute of Technology (United States)H. MiyasakaSpace Radiation Lab., California Institute of Technology (United States)Vikram RanaSpace Radiation Lab., California Institute of Technology (United States)Daniel SternJet Propulsion Lab. (United States)William W. ZhangNASA Goddard Space Flight Ctr. (United States)Andreas ZoglauerSpace Sciences Lab., Univ. of California, Berkeley (United States)D. J. WaltonSpace Radiation Lab., California Institute of Technology (United States)N. J. WestergaardDTU Space (Denmark)
2014en
ABI

Аннотация

The Nuclear Spectroscopic Telescope Array (NuSTAR) mission was launched on 2012 June 13 and is the first focusing high-energy X-ray telescope in orbit operating above ~10 keV. NuSTAR flies two co-aligned Wolter-I conical approximation X-ray optics, coated with Pt/C and W/Si multilayers, and combined with a focal length of 10.14 meters this enables operation from 3-79 keV. The optics focus onto two focal plane arrays, each consisting of 4 CdZnTe pixel detectors, for a field of view of 12.5 arcminutes. The inherently low background associated with concentrating the X-ray light enables NuSTAR to probe the hard X-ray sky with a more than 100-fold improvement in sensitivity, and with an effective point spread function FWHM of 18 arcseconds (HPD ~1), NuSTAR provides a leap of improvement in resolution over the collimated or coded mask instruments that have operated in this bandpass. We present in-orbit performance details of the observatory and highlight important science results from the first two years of the mission.

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