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EUV Astrophysics with ALEXIS: The Wide View

Published online by Cambridge University Press:  12 April 2016

Jeffrey Bloch*
Affiliation:
Los Alamos National Laboratory, Astrophysics and Radiation Measurements Group, Group NIS-2, Mail Stop D436 Los Alamos, NM 87545USA

Abstract

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The Array of Low Energy X-ray Imaging Sensors (ALEXIS) satellite is Los Alamos’ pathfinding small space mission achieving low cost and rapid development time for its technology demonstration and science goals. The ALEXIS satellite contains the ALEXIS telescope array, which consists of six EUV/ultrasoft X-ray telescopes utilizing normal incidence multilayer mirrors, microchannel plate detectors, and thin UV rejecting filters. Each telescope is tuned to a relatively narrow bandpass centered at either 130, 171, or 186 angstroms. Each telescope has a 33° field-of-view, and a resolution of ~ 0.25°. With each 50 s rotation of the satellite, the telescopes scan most of the anti-solar hemisphere of the sky. The spacecraft is controlled exclusively from a ground station located at Los Alamos.

This paper discusses the characteristics and performance of the ALEXIS telescopes and the results from the mission in spite of the damage incurred to the spacecraft at launch.

Type
I. Summaries of Recent Missions
Copyright
Copyright © Kluwer 1996

References

Bloch, J.J., Priedhorsky, W.C., Roussel-Dupré, D., Edwards, B.C., & Smith, B.W. 1990, Design, Performance, and Calibration of the ALEXIS Ultrasoft X-Ray Telescopes SPIE Proc., EUV, X-Ray, and Gamma-ray Instrumentation for Astronomy, 154, 1344 Google Scholar
Bloch, J.J., & Smith, B.W. 1991, The ALEXIS Project and the Local Interstellar Medium, in Extreme Ultraviolet Astronomy, ed. Malina, R. & Bowyer, S., New York: Pergamon, 1991 Google Scholar
Bloch, J.J., Armstrong, W.T., Dingler, R., Enemark, D., Holden, D., Little, C., Munson, C., Priedhorsky, W.C., Roussel-Dupré, D., Smith, B.W., Warner, R.W., Dill, B., Huffman, G., McLoughlin, F., Mills, R., & Miller, R. 1994, The ALEXIS Mission Recovery, American Astronautical Proceedings, Advances in the Astro-nautical Sciences, 86, 505 Google Scholar
Bloch, J., Edwards, B., Priedhorsky, W., Roussel-Dupré, D., Smith, B.W., Siegmund, O.W.H., Carone, T., Cully, S., Rodriguez-Bell, T., Warren, J., & Vallerga, J. 1994, On Orbit Performance of the ALEXIS EUV Telescopes, SPIE Proc, EUV, X-ray, and Gamma-Ray Instrumentation for Astronomy V, 2280, 297 Google Scholar
Cully, S.L., Fisher, G.H., Abbott, M.J., & Siegmund, O.H.W. 1994, A Coronal Mass Ejection Model for The 1992 July 15 Flare on AU Microscopii Observed by the Extreme Ultraviolet Explorer, ApJ, 435, 449 Google Scholar
Dahlem, M., Krysing, H.-C., White, S., Engels, D., Condon, J.J., & Voges, W. 1995, RE J1255+266: Detection of an extremely bright EUV transient, A&A, 295L, 13 Google Scholar
Edwards, B.C., Bloch, J.J., Dupré, D., Pfafman, T.E., & Ryan, S. 1995, ALEXIS Lunar Observations, these proceedingsGoogle Scholar
Lampton, M. 1994, Two Sample Discrimination of Poisson Means, ApJ, 436, 784 Google Scholar
Priedhorsky, W.C., Bloch, J.J., Smith, B.W., Strobel, K., Ulibarri, M., Chavez, J., Evans, E., Siegmund, O.W.H., Marshall, H., Vallerga, J., & Vedder, P. 1988, ALEXIS: An Ultrasoft X-Ray Monitor Experiment Using Miniature Satellite Technology, in X-Ray Instrumentation in Astronomy II, 982 Google Scholar
Priedhorsky, W.C., Bloch, J.J., Cordova, F.A., Smith, B.W., Ulibarri, M., Sieg-Mund, O.W.H., Marshall, H., Vallerga, J., & Vedder, P. 1991, ALEXIS: A Narrow Band Survey/Monitor of the Ultrasoft X-ray Sky, in Extreme Ultraviolet Astronomy, ed. Malina, R.F. & Bowyer, S., New York: Pergammon Press, 464 Google Scholar
Priedhorsky, W.C., Bloch, J.J., Holden, D.H., Roussel-Dupré, D.C., Smith, B.W., Dingler, R., Warner, R., Huffman, G., Miller, R., Dill, B., & Fleeter, R. 1993, The ALEXIS Small Satellite Project: Initial Flight Results, SPIE Proc, EUV, X-ray, and Gamma-Ray Instrumentation for Astronomy, 2006, 114 Google Scholar
Remillard, R.A., Schachter, J.F., Silber, A.D. & Slane, P. 1994, 1ES 1113+432: Luminous, Soft X-ray Outburst from a Nearby Cataclysmic Variable AR Ursae Majoris, ApJ, 426, 288 Google Scholar
Roussel-Dupré, D., Bloch, J.J., Ciskowski, D., Dingler, R., Little, C., Kennison, M., Priedhorsky, W.C., & Ryan, S. 1994, On-Orbit Science in a Small Package: Managing the ALEXIS Satellite and Experiments, SPIE Proc, Advanced Microdevices and Space Science Sensors, 2267 Google Scholar
Roussel-Dupré, D., Bloch, J.J., Ryan, S., Edwards, B.C., Pfafman, T., Ramsey, K., & Stem, S. 1995, The ALEXIS Point Source Detection Effort, these proceedingsGoogle Scholar
Roussel-Dupré, D., Bloch, J.J., Edwards, B.C., Pfafman, T.E., Priedhorsky, W.C., Ryan, S., Smith, B.W., Siegmund, O.H.W., Cully, S., Rodriguez-Bell, T., Vallerga, J., & Warren, J. 1995, ALEXIS J1139, IAU Cire, #6152Google Scholar
Roussel-Dupré, D., & The Alexis Team 1995, ALEXIS J1644, IAU Circ., #6170Google Scholar
Roussel-Dupré, D., & Bloch, J.J. 1995, in The Proc. of TAOS X, Workshop on the Earth’s Trapped Particle Environment, in pressGoogle Scholar
Smith, B.W., Bloch, J.J., & Roussel-Dupré, D. 1989, Metal multilayer mirrors for EUV/ultrasoft X-ray wide-field telescopes, SPIE Proc, X-ray/EUV Optics for Astronomy and Microscopy, ed. Hoover, R.B., 1160 Google Scholar
Smith, B.W., Bloch, J.J., & Roussel-Dupré, D.C. 1990, Metal multilayer mirrors for EUV/ultrasoft X-ray wide-field telescopes, Opt. Eng., 29, 6, 592 Google Scholar
Smith, B.W., Pfafman, T.E., Bloch, J.J., & Edwards, B.C. 1995, ALEXIS Observations of the Diffuse Cosmic Background in the Extreme Ultraviolet, these proceedingsGoogle Scholar
West, R.G., Sims, M.R., & Willingale, R. 1994, Evidence for a far-ultraviolet spacecraft glow in the ROSAT Wide Field Camera, Planet. Space. Sci., 42(1), 71 Google Scholar