The extreme ultraviolet explorer and the local interstellar medium

The Extreme Ultraviolet Explorer (EUVE) mission is described with emphasis on the overall capabilities of the instrumentation and the relevance of the mission to determining parameters of the local interstellar medium. The primary purpose of the mission is to search the celestial sphere for astronomical sources of extreme ultraviolet (EUV) radiation (100–1000Å). The search will be accomplished with the use of three EUV telescopes, sensitive to different segments of the EUV band. A fourth telescope will perform a high sensitivity search of a limited sample of the sky in the shortest wavelength bands. The all-sky survey will be carried out in the first six months of the mission. The second six months of the mission, conducted entirely by Guest Investigators selected by NASA, will be devoted to spectroscopic observations of selected EUV sources. The instrumentation is now well developed. The mirrors meet the requirements of the mission with the best mirror having a full-width half energy spread of 8 arc seconds and a surface finish of 20Å. Prototype thin film bandpass filters have been flown on the Space Shuttle and their performance optimized. Prototype detectors have been developed which have 600 by 600 pixel imaging capability and up to 80% quantum efficiency in parts of the EUV band. A newly invented, high efficiency, grazing incidence spectrometer using variable line space gratings is under development; prototype gratings have been fabricated which provide 75% of theoretical efficiency. An end-to-end (star to as-received flight data) model of the mission has been constructed. Hypothetical, but realistic, flux data from continuous astronomical sources absorbed by intervening material have been processed through this model and show the ability of the EUVE instrumentation to measure such parameters as the hydrogen to helium ratio of the local interstellar medium.