Spartan Halley was a failed NASA space mission to capture the ultraviolet spectrum of comet 1P/Halley for 48 hours.[1] This small satellite was also identified as Spartan 203 (Shuttle Pointed Autonomous Research Tool for Astronomy 203) and HCED (Halley's Comet Experiment Deployable). It was one of the payloads of the Space Shuttle Challenger for the STS-51-L mission, which exploded during launch. The principal scientist for the mission was Alan Stern.[2]
This autonomous sub-satellite was designed by the University of Colorado. It included two spectrometers that provided an angular resolution of 1′ by 80′ in the ultraviolet band, with wavelengths from 1,250 to 3,200 Å. A Nikon camera with an f-number of 3 was to be used to determine the orientation of the instruments.[3] Autonomous navigation was provided by solar sensors, a star tracker, gyroscopes along three axes, and dual interactive microprocessors.[1][4] The main goal of the package was to measure atomic oxygen plus hydroxyl emission from the comet, which were generated by photodissociation of water. Other potentially detectable emissions included nitric oxide, carbon monoxide, carbon dioxide, and carbon monosulfide; in general, atoms and molecules that include carbon, nitrogen, and sulfur.[3]
The launch of the Challenger mission was scheduled around the 1986 passage of Comet Halley, which was to be the primary focus of the mission. The Spartan Halley payload was to be deployed by mission specialists Ron McNair and Judy Resnik using the Canadarm, then retrieved two days later.[5]
References
- 1 2 Watzin, J. G.; Stern, S. A. (January 1, 1987), An approach to conducting observations of non-trackable objects utilizing the Spartan spacecraft, AAS, 87-005, retrieved 2023-06-17.
- ↑ Hand, Eric (June 2015), "Mission controller", Science, 348 (6242): 1414–1419, Bibcode:2015Sci...348.1414H, doi:10.1126/science.348.6242.1414, PMID 26113699, retrieved 2023-06-17.
- 1 2 Yeomans, D. K. (October 1985), "Advanced missions to primitive bodies", Astronomical Society of the Pacific, Symposium on New Directions in Asteroid and Comet Research, Northern Arizona University, Flagstaff, AZ, June 1985, Astronomical Society of the Pacific, vol. 97, pp. 871–876, Bibcode:1985PASP...97..871Y, doi:10.1086/131618, S2CID 120044738.
- ↑ Stern, Alan; et al., SPARTAN Halley – Shuttle Pointed Autonomous Research Tool for Astronomy Halley, Laboratory for Atmospheric and Space Physics, University of Colorado, retrieved 2023-06-17.
- ↑ Evans, Ben (31 January 2014), 'Moderately Complex': The Mission That 51L Should Have Been, Spaceline, Inc., retrieved 2023-06-17.
Further reading
- Mission Design and Operations: SPARTAN-Halley as a Paradigm for Small Satellites, retrieved 2023-06-17.
- Hartmann, Al (ed.), NASA Challenger STS-51L Pre-Launch Fact Sheet, Spaceline, Inc., retrieved 2023-06-17.