The Nuclear Spectroscopic Telescope Array (NuSTAR) Mission

Fiona A. Harrison , William W. Craig , Finn E. Christensen , Charles J. Hailey , Will W. Zhang , Steven E. Boggs , Daniel Stern , W. Rick Cook

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Karl Forster Paolo Giommi Brian W. Grefenstette Yunjin Kim Takao Kitaguchi Jason E Koglin Kristin K. Madsen Peter H. Mao Hiromasa Miyasaka Kaya Mori Matteo Perri Michael J. Pivovaroff Simonetta Puccetti Vikram R. Rana Niels J. Westergaard Jason Willis Andreas Zoglauer Hongjun An Matteo Bachetti Nicolas M. Barriere Eric C. Bellm Varun Bhalerao Nicolai F. Brejnholt Felix Fuerst Carl C. Liebe Craig B. Markwardt Melania Nynka Julia K. Vogel Dominic J. Walton Daniel R. Wik David M. Alexander Lynn R. Cominsky Ann E. Hornschemeier Allan Hornstrup Victoria M. Kaspi Greg M. Madejski Giorgio Matt Silvano Molendi David M. Smith John A. Tomsick Marco Ajello David R. Ballantyne Mislav Balokovic Diddier Barret Franz E. Bauer Roger D. Blandford W. Niel Brandt Laura W. Brenneman James Chiang Deepto Chakrabarty Jerome Chenevez Andrea Comastri Martin Elvis Andrew C. Fabian Duncan Farrah Chris L. Fryer Eric V. Gotthelf Jonathan E. Grindlay David J. Helfand Roman Krivonos David L. Meier Jon M. Miller Lorenzo Natalucci Patrick Ogle Eran O. Ofek Andrew Ptak Stephen P. Reynolds Jand R. Rigby Gianpiero Tagliaferri Stephen E. Thorsett Ezequiel Treister C. Megan Urry

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keywords nustarx-raymissionorbitsensitivitytelescopearrayfocusing

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The Nuclear Spectroscopic Telescope Array (NuSTAR) mission, launched on 13 June 2012, is the first focusing high-energy X-ray telescope in orbit. NuSTAR operates in the band from 3 -- 79 keV, extending the sensitivity of focusing far beyond the ~10 keV high-energy cutoff achieved by all previous X-ray satellites. The inherently low-background associated with concentrating the X-ray light enables NuSTAR to probe the hard X-ray sky with a more than one-hundred-fold improvement in sensitivity over the collimated or coded-mask instruments that have operated in this bandpass. Using its unprecedented combination of sensitivity, spatial and spectral resolution, NuSTAR will pursue five primary scientific objectives, and will also undertake a broad program of targeted observations. The observatory consists of two co-aligned grazing-incidence X-ray telescopes pointed at celestial targets by a three-axis stabilized spacecraft. Deployed into a 600 km, near-circular, 6degree inclination orbit, the Observatory has now completed commissioning, and is performing consistent with pre-launch expectations. NuSTAR is now executing its primary science mission, and with an expected orbit lifetime of ten years, we anticipate proposing a guest investigator program, to begin in Fall 2014.

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