The Neutron Star Interior Composition Explorer (NICER): Design and Development

Keith C. Gendreau,Zaven Arzoumanian, Phillip W. Adkins, Cheryl L. Albert, John F. Anders, Andrew T. Aylward,Charles Baker,Erin Balsamo, William A. Bamford, Suyog S. Benegalrao, Daniel L. Berry, Shiraz Bhalwani,J. Kevin Black, Carl Blaurock, Ginger M. Bronke,Gary Brown,Jason Budinoff, Jeffrey D. Cantwell, Thoniel Cazeau, Philip T. Chen, Thomas G. Clement, Andrew T. Colangelo, Jerry S. Coleman, Jonathan D. Coopersmith, William E. Dehaven,John P. Doty,Mark Egan,Teruaki Enoto, Terry W.-M. Fan, Deneen M. Ferro,Richard F. Foster, Nicholas M. Galassi, Luis D. Gallo,Chris M. Green, Dave Grosh, Kong Q. Ha, Monther A. Hasouneh, Kristofer B. Heefner, Phyllis Hestnes, Lisa J. Hoge, Tawanda M. Jacobs,John Leif Jørgensen,Michael A. Kaiser,James Kellogg,Steven J. Kenyon, Richard Koenecke, Robert P. Kozon,Beverly LaMarr, Mike D. Lambertson, Anne M. Larson,Steven Lentine, Jesse Lewis, Michael G. Lilly, Kuochia Alice Liu, Andrew Malonis,Sridhar S. Manthripragada,Craig B. Markwardt, Bryan D. Matonak,Isaac E. Mcginnis, Roger Miller, Alissa L. Mitchell,Jason W. Mitchell, Jelila S. Mohammed, Charles A. Monroe, Kristina Montt de Garcia, Peter Mule, Louis T. Nagao, Son N. Ngo, Eric D. Norris, Dwight A. Norwood, Joseph Novotka,Takashi Okajima, L. Olsen, Chimaobi O. Onyeachu, Henry Y. Orosco, Jacqualine R. Peterson, Kristina N. Pevear, Karen K. Pham, Sue E. Pollard, John S. Pope, Daniel F. Powers, Charles E. Powers,Samuel R. Price,Gregory Y. Prigozhin, Julian B. Ramirez, Winston J. Reid,Ronald A. Remillard, Eric Rogstad, Glenn P. Rosecrans, John N. Rowe, Jennifer A. Sager, Claude A. Sanders, Bruce Savadkin,Maxine R. Saylor, Alexander F. Schaeffer, Nancy S. Schweiss,Sean R. Semper,Peter J. Serlemitsos, Larry V. Shackelford,Yang Soong, Jonathan Struebel, Michael L. Vezie, J. Villasenor,Luke Winternitz, George I. Wofford, Michael R. Wright, Mike Y. Yang,Wayne H. Yu

Proceedings of SPIE（2016）

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摘要

During 2014 and 2015, NASA's Neutron star Interior Composition Explorer (NICER) mission proceeded successfully through Phase C, Design and Development. An X-ray (0.2-12 keV) astrophysics payload destined for the International Space Station, NICER is manifested for launch in early 2017 on the Commercial Resupply Services SpaceX-11 flight. Its scientific objectives are to investigate the internal structure, dynamics, and energetics of neutron stars, the densest objects in the universe. During Phase C, flight components including optics, detectors, the optical bench, pointing actuators, electronics, and others were subjected to environmental testing and integrated to form the flight payload. A custom-built facility was used to co-align and integrate the X-ray "concentrator" optics and silicon-drift detectors. Ground calibration provided robust performance measures of the optical (at NASA's Goddard Space Flight Center) and detector (at the Massachusetts Institute of Technology) subsystems, while comprehensive functional tests prior to payload-level environmental testing met all instrument performance requirements. We describe here the implementation of NICER's major subsystems, summarize their performance and calibration, and outline the component-level testing that was successfully applied.

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关键词

X-ray astrophysics,Neutron stars,Timing spectroscopy,International Space Station,SEXTANT,X-ray pulsar-based navigation (XNAV)

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