Hostname: page-component-cd9895bd7-dzt6s Total loading time: 0 Render date: 2024-12-23T19:48:43.515Z Has data issue: false hasContentIssue false

The Extreme Ultraviolet Explorer Mission

Published online by Cambridge University Press:  30 March 2016

Stuart Bowyer
Affiliation:
Center for Extreme Ultraviolet Astrophysics University of CaliforniaBerkeley, California 94720United States of America
Patrick Jelinsky
Affiliation:
Center for Extreme Ultraviolet Astrophysics University of CaliforniaBerkeley, California 94720United States of America
Carol Christian
Affiliation:
Center for Extreme Ultraviolet Astrophysics University of CaliforniaBerkeley, California 94720United States of America
Isabel Hawkins
Affiliation:
Center for Extreme Ultraviolet Astrophysics University of CaliforniaBerkeley, California 94720United States of America

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The Extreme Ultraviolet Explorer mission is described. For the first six months, an all-sky survey will be carried out covering 90 to 750 Å, or essentially the entire extreme ultraviolet (EUV) bandpass. This EUV survey will be made in four bands, or colors: λλ 90-150 Å, 170-250 Å, 400-600 Å, and 550-750 Å. A portion of the sky which is free from the normally intense 304 Å geocoronal helium background will be surveyed at greater sensitivity; the wavelength coverage of this band is from 90 to 400 Å. Following the sky survey portion of the mission, spectroscopy of individual sources will be carried out. Three spectrometers employing novel variable line-space gratings will provide spectra with ~1 Å resolution over the band from 70 to 760 Å. This spectroscopy will be carried out by guest observers chosen by NASA in a manner roughly analogous to the International Ultraviolet Explorer (IUE) guest observer program.

Type
Joint Discussions
Copyright
Copyright © Kluwer 1992

References

Finley, D. S., Jelinsky, P., Bowyer, S., and Malina, R.F. (1988) Design of the Extreme Ultraviolet Explorer long-wavelength grazing incidence telescope optics, Appl. Opt., 27, 1476.Google Scholar
Hettrick, M. C. and Bowyer, S. (1983) Variable line-space gratings: new designs for use in grazing incidence spectrometers, Appl. Opt., 22, 3921.Google Scholar
Martin, C, Jelinsky, P., Lampton, M., Malina, R. F., and Anger, H. O. (1981) Wedge-and-strip anodes for centroid-finding position-sensitive photon and particle detectors, Rev. Sci. Instrum., 52, 1967.Google Scholar
Martin, C, Mrowka, S., Bowyer, S., and Malina, R. F. (1985) The Extreme Ultraviolet Explorer spectrometer: performance characteristics based on development of the collimator, variable line-space gratings, telescope and detectors, Proc. SPIE, 597, 284.Google Scholar
Siegmund, O. H. W., Lampton, M., Bixler, J., Chakrabarti, S., Vallerga, J., Bowyer, S., and Malina, R. F. (1986) Wedge-and-strip image readout systems for photon-counting detectors in space astronomy, J. Opt. Soc. Am.-A, 3, 21392145.Google Scholar