+ Visit NASA.gov + Contact NASA   + Home Collection > NASA  Author > Horak, H. G.  Author > Karl, R. R.  Author > Mccomas, D. J.  Author > Spense, H. E.  Author > Wilkerson, T. D.  NASA Center > NASA (non Center Specific)  Publication Year > 1981-1990 > 1986  Subject > A-C > Astronautics (general)  Availability Options > Online > PDF  Item/Media Type > Reprint  Note: Start a new navigation search by selecting a link above     Previous Record | Next Record + Back to Results   + Printer Friendly Title: Bistatic LIDAR experiment proposed for the shuttle/tethered satellite system missions Author(s): Mccomas, D. J.; Spense, H. E.; Karl, R. R.; Horak, H. G.; Wilkerson, T. D. Abstract: A new experiment concept has been proposed for the shuttle/tethered satellite system missions, which can provide high resolution, global density mappings of certain ionospheric species. The technique utilizes bistatic LIDAR to take advantage of the unique dual platform configuration offered by these missions. A tuned, shuttle-based laser is used to excite a column of the atmosphere adjacent to the tethered satellite, while triangulating photometic detectors on the satellite are employed to measure the fluorescence from sections of the column. The fluorescent intensity at the detectors is increased about six decades over both ground-based and monostatic shuttle-based LIDAR sounding of the same region. In addition, the orbital motion of the Shuttle provides for quasi-global mapping unattainable with ground-based observations. Since this technique provides such vastly improved resolution on a synoptic scale, many important middle atmospheric studies, heretofore untenable, may soon be addressed. NASA Center: NASA (non Center Specific) Publication Date: Jun 1, 1986 Document Source: CASI Online Source: View PDF File Document ID: 19860018951 Accession ID: 86N28423 Publication Information: NASA, Washington Applications of Tethers in Space: Workshop Proceedings, Volume 1, p 329-347, Number of Pages = 4 Price Code: A01 Related Information: Repr. from Review of Scientific Instruments, v. 56, no. 5, May 1985 p 670-673 Keywords: IONOSPHERIC SOUNDING; OPTICAL RADAR; SPACE BASED RADAR; SPACE SHUTTLE MISSIONS; SPACEBORNE EXPERIMENTS; ATMOSPHERIC COMPOSITION; FEASIBILITY ANALYSIS; FLUORESCENCE; PHOTOMETRY; SPACECRAFT INSTRUMENTS; TETHERED SATELLITES; Notes: In NASA, Washington Applications of Tethers in Space: Workshop Proceedings, Volume 1 p 329-347 (SEE N86-28407 19-37) Accessibility: Unclassified; No Copyright; Unlimited; Publicly available; Updated/Added to NTRS: 2008-11-10 + Back to Top + Sponsored by the NASA Scientific and Technical    Information Program + 2004 Vision for Space Exploration + Freedom of Information Act + NASA Web Privacy Policy and Important Notices + NASA Disclaimers, Copyright Notice,    and Terms and Conditions of Use NASA Official: Calvin Mackey Page Curator: NASA Center for AeroSpace Information (help@sti.nasa.gov) Last Updated: July 5, 2007