OSO 3 explained

OSO 3
Mission Type:Solar physics
Operator:NASA
Cospar Id:1967-020A
Mission Duration:2 years, 8 months
Manufacturer:BBRC
Launch Mass:281kg (619lb)
Launch Date: UTC
Launch Rocket:Delta C
Launch Site:Cape Canaveral LC-17A
Decay Date:April 4, 1982
Orbit Epoch:May 8, 1967, 11:19:00 UTC[1]
Orbit Reference:Geocentric
Orbit Regime:Low Earth
Orbit Periapsis:534km (332miles)
Orbit Apoapsis:564km (350miles)
Orbit Inclination:32.87 degrees
Orbit Eccentricity:0.002164
Orbit Mean Motion:15.07
Orbit Period:95.53 minutes
Apsis:gee

OSO 3 (Orbiting Solar Observatory 3), or Third Orbiting Solar Observatory[2] [3] (known as OSO E2 before launch) was launched on March 8, 1967, into a nearly circular orbit of mean altitude 550 km, inclined at 33° to the equatorial plane. Its on-board tape recorder failed on June 28, 1968, allowing only the acquisition of sparse real-time data during station passes thereafter; the last data were received on November 10, 1969. OSO 3 reentered the Earth's atmosphere and burned up on April 4, 1982.

Like all the American Orbiting Solar Observatory (OSO) series satellites, it had two major segments: one, the "Sail", was stabilized to face the Sun, and carried both solar panels and Sun-pointing experiments for solar physics. The other, "Wheel" section, rotated to provide overall gyroscopic stability and also carried sky scanning instruments that swept the sky as the wheel turned, approximately every 2 seconds.

Instrumentation

Experiments on board OSO 3
Name Target Principal Investigator
High Energy Gamma Ray (> 50 MeV) anti-solar Kraushaar, W. L., Massachusetts Institute of Technology
Cosmic Ray Spectrum Detector and Gamma Ray Analyzer Sun, all-sky Kaplon, Morton F, University of Rochester
Directional Radiometer Experiment Neel, Carr B Jr, NASA Ames Research Center
Earth Albedo (0.32- to 0.78-μm) Earth Neel, Carr B Jr, NASA Ames Research Center
Solar EUV Spectrometer 0.1 to 40.0 nm Sun Neupert, Werner M, NASA Goddard Space Flight Center
0.8- to 1.2-nm Solar X-Ray Ion Chamber Sun Teske, Richard G, University of Michigan
Solar and Celestial Gamma-Ray Telescope (7.7 to 200 keV) Sun, all-sky Laurence E. Peterson University of California, San Diego
Thermal Radiation Emissivity near-Earth space environment Neel, Carr B Jr, NASA Ames Research Center
Extreme Ultraviolet Spectrometer Sun Hinteregger, Hans E, Phillips Laboratory

The Sail carried a hard X-ray experiment from UCSD, with a single thin NaI(Tl) scintillation crystal plus phototube enclosed in a howitzer-shaped CsI(Tl) anti-coincidence shield. The energy resolution was 45% at 30 keV. The instrument operated from 7.7 to 210 keV with 6 channels. The Principal Investigator (PI) was Prof. Laurence E. Peterson of UCSD. Also in the wheel was a cosmic gamma-ray (>50 MeV) sky survey instrument contributed by MIT, with PI Prof. William L. Kraushaar.

Scientific results

OSO-3 obtained extensive hard X-ray observations of solar flares, the cosmic diffuse X-ray background, and multiple observations of Scorpius X-1, the first observation of an extrasolar X-ray source by an observatory satellite.[4] [5] [6] [7]

The MIT gamma-ray instrument obtained the first identification of high-energy cosmic gamma rays emanating from both galactic and extra-galactic sources.[8]

See also

External links

The content of this article was adapted and expanded from NASA's HEASARC: Observatories OSO 3 https://archive.today/20121212094414/http://heasarc.nasa.gov/docs/heasarc/missions/oso3.html and NASA's National Space Science Data Center: OSO 3 https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=1967-020A (Public Domain)

Notes and References

  1. Web site: NASA - NSSDCA - Spacecraft - Trajectory Details. nssdc.gsfc.nasa.gov. May 2, 2018.
  2. https://web.archive.org/web/19980224154422/http://imagine.gsfc.nasa.gov/docs/sats_n_data/xray_missions.html NASA GSFC X-ray Astronomy Satellites and Missions
  3. http://heasarc.gsfc.nasa.gov/docs/heasarc/missions/oso3.html
  4. Peterson . Laurence E. . Jacobson . Allan S. . Pelling . R. M. . Spectrum of Crab Nebula X Rays to 120 keV . Physical Review Letters . American Physical Society (APS) . 16 . 4 . 1966-01-24 . 0031-9007 . 10.1103/physrevlett.16.142 . 142–144. 2060/19660015394 . free .
  5. Peterson . Laurence E. . Jacobson . Allan S. . The Spectrum of Scorpius XR-1 to 50 KEV . The Astrophysical Journal . American Astronomical Society . 145 . 1966 . 0004-637X . 10.1086/148848 . 962. 1966ApJ...145..962P. free .
  6. Hudson . Hugh S. . Peterson . Laurence E. . Schwartz . Daniel A. . Simultaneous X-Ray and Optical Observations of SCO X-1 Flares . The Astrophysical Journal . American Astronomical Society . 159 . 1970 . 0004-637X . 10.1086/180476 . L51. 1970ApJ...159L..51H.
  7. Pelling, R. M. 1971, Ph.D. dissertation thesis, University of California at San Diego
  8. Kraushaar . W. L. . William L. Kraushaar . Clark . G. W. . Garmire . G. P. . Borken . R. . Higbie . P. . Leong . V. . Thorsos . T. . High-Energy Cosmic Gamma-Ray Observations from the OSO-3 Satellite . The Astrophysical Journal . American Astronomical Society . 177 . 1972 . 0004-637X . 10.1086/151713 . 341-363. 1972ApJ...177..341K. free .