The Far Ultraviolet Camera/Spectrograph (UVC) was one of the experiments deployed on the lunar surface by the Apollo 16 astronauts. It consisted of a telescope and camera that obtained astronomical images and spectra in the far ultraviolet region of the electromagnetic spectrum.
Instrument
editThe Far Ultraviolet Camera/Spectrograph was a tripod mounted, f/1.0, 75 mm electronographic Schmidt camera weighing 22 kg. It had a 20° field of view in the imaging mode, and 0.5x20° field in the spectrographic mode.[1] Spectroscopic data were provided from 300 to 1350 Ångström, with 30 Å resolution, and images were provided in two passbands ranges, 1050–1260 Å and 1200–1550 Å.[2] There were two corrector plates made of lithium fluoride (LiF) or calcium fluoride (CaF2), which could be selected for different bands of UV.[1] The camera contained a cesium iodide (CsI) photocathode and used a film cartridge[2] which was recovered and returned to earth for processing.
The experiment was placed on the Descartes Highlands region of lunar surface where Apollo 16 astronauts John Young and Charles Duke landed in April 1972. To keep it cool and eliminate solar glare, it was placed in the shadow of the lunar module. It was manually aimed by the astronauts, who would re-point the telescope at targets throughout the lunar stay.[1]
Experiment goals
editThe goals of the Far Ultraviolet Camera/Spectrograph spanned across several disciplines of astronomy. Earth studies were made by studying the Earth's upper atmosphere's composition and structure, the ionosphere, the geocorona, day and night airglow, and aurorae. Heliophysics studies were made by obtaining spectra and images of the solar wind, the solar bow cloud, and other gas clouds in the solar system. Astronomical studies by obtaining direct evidence of intergalactic hydrogen, and spectra of distant galaxy clusters and within the Milky Way. Lunar studies were conducted by detecting gasses in the lunar atmosphere, and searching for possible volcanic gasses. There were also considerations to evaluate the lunar surface as a site for future astronomical observatories.[1]
Results
editThe film cartridge was removed during the third and final extravehicular activity,[3] and returned to earth. The rest of the instrument package was left on the lunar surface. A total of 178 frames of film were obtained of 11[4] different targets including: the Earth's upper atmosphere and aurora, various nebulae and star clusters, and the Large Magellanic Cloud.[5]
The film was digitally scanned and saved on tape.[6] Files from these tapes can be requested at NASA. Most of the Apollo 16 and Skylab photos have been converted to JPGs by a third party enthusiast.[7]
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This is a picture of Earth in ultraviolet light, taken from the surface of the Moon. The day-side reflects a lot of UV light from the Sun, but the night-side shows bands of UV emission from the aurora caused by charged particles.[8]
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Color-enhanced UV photo of the Large Magellanic Cloud, taken from the lunar surface
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Earth's geocorona, as viewed by the Far Ultraviolet Camera/Spectrograph]]
Designer
editThe principal investigator and chief engineer of the Far Ultraviolet Camera/Spectrograph was Dr. George Robert Carruthers, who was working at the US Naval Research Lab.[9] In 1969, Dr. Carruthers was given a patent for "Image Converter for Detecting Electromagnetic Radiation Especially in Short Wave Lengths". For this and his further work, he received the 2012 National Medal of Technology and Innovation.[10]
Second telescope
editA second spare telescope was slightly modified and later flown on Skylab 4. It was given an aluminum (Al) and magnesium fluoride (MgF2) mirror rather than rhenium. It was mounted on Skylab's Apollo Telescope Mount for usage in orbit.[1] Among the many images and spectra that it took, it was used to study ultraviolet emission from Comet Kohoutek.[11]
See also
editReferences
edit- ^ a b c d e "Experiment: Far UV Camera/Spectrograph". Astromaterials Research and Exploration Science. Archived from the original on 20 February 2013. Retrieved 1 May 2013.
- ^ a b "Apollo 16 Lunar Module /ALSEP". NASA - NSSDCA. Retrieved 1 May 2013.
- ^ "Apollo 16". NASA. Archived from the original on Jun 22, 2015. Retrieved 8 May 2013.
- ^ Alic, Margaret. "George R. Carruthers". answers.com. Archived from the original on Feb 7, 2011. Retrieved 12 May 2013.
- ^ "Apollo 16 Mission - Science Experiments - Far Ultraviolet Camera/Spectrograph". Lunar and Planetary Institute. Archived from the original on May 28, 2013. Retrieved 1 May 2013.
- ^ "Digitized Scans of the Far-Ultraviolet Camera/Spectroscope Frames". NASA – NSSDCA. Retrieved 2019-05-09.
- ^ Apollo 16, Skylab. Internet Archive.
- ^ "Ultraviolet Waves". NASA. 2013-09-27. Archived from the original on 2007-04-09. Retrieved 2013-10-03.
- ^ "Inventor of the Week – George Carruthers". Lemelson-MIT. September 1998. Archived from the original on 3 May 2003. Retrieved 1 May 2013.
- ^ McKinney, Donna (2 April 2013). "NRL's Dr. George Carruthers Honored with National Medal of Technology and Innovation". U.S. Naval Research Laboratory. Archived from the original on 16 February 2013. Retrieved 3 May 2013.
- ^ "SP-404 Skylab's Astronomy and Space Sciences - 4. Observations of Comet Kohoutek". NASA History Office. Archived from the original on 13 November 2004. Retrieved 1 May 2013.
Further reading
edit- Carruthers, G. R.; Page, T. (1972). "Apollo 16 Far-Ultraviolet Camera/Spectrograph: Earth Observations". Science. 177 (4051): 788–791. Bibcode:1972Sci...177..788C. doi:10.1126/science.177.4051.788. PMID 17840127. S2CID 31382007.
- Opal, C. B.; Carruthers, G. R.; Prinz, D. K.; Meier, R. R. (1974). "Comet Kohoutek: Ultraviolet Images and Spectrograms". Science. 185 (4152): 702–705. Bibcode:1974Sci...185..702O. doi:10.1126/science.185.4152.702. PMID 17736377. S2CID 45497893.
- Carruthers, George R.; Page, Thornton (1976). "Apollo 16 far ultraviolet imagery of the polar auroras, tropical airglow belts, and general airglow". Journal of Geophysical Research. 81 (4): 483–496. Bibcode:1976JGR....81..483C. doi:10.1029/JA081i004p00483.