Uhuru (X-ray Explorer Satellite)
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Mission type | Astronomy |
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Operator | NASA |
COSPAR ID | 1970-107A |
SATCAT № | 4797 |
Website | heasarc |
Mission duration | 3 years |
Spacecraft properties | |
Dry mass | 141.5 kilograms (312 lb) |
Start of mission | |
Launch date | December 12, 1970, 10:53:50 | UTC
Rocket | Scout B S175C |
Launch site | San Marco |
End of mission | |
Last contact | March 1973 |
Decay date | April 5, 1979 |
Orbital parameters | |
Reference system | Geocentric |
Regime | Low Earth |
Eccentricity | 0.002956 |
Perigee | 520.0 kilometers (323.1 mi) |
Apogee | 560.0 kilometers (348.0 mi) |
Inclination | 3.0 degrees |
Period | 95.70 minutes |
Instruments | |
All-Sky X-Ray Survey |
Uhuru was the first satellite launched specifically for the purpose of X-ray astronomy. It was also known as the X-ray Explorer Satellite, SAS-A (for "Small Astronomy Satellite" A, being first of the three-spacecraft SAS series), SAS 1, or Explorer 42. The observatory was launched on December 12, 1970 into an initial orbit of about 560 km apogee, 520 km perigee, 3 degrees inclination, with a period of 96 minutes. The mission ended in March 1973. Uhuru was a scanning mission, with a spin period of ~12 minutes. It performed the first comprehensive survey of the entire sky for X-ray sources, with a sensitivity of about 0.001 times the intensity of the Crab nebula.
The main objectives of the mission were:
The payload consisted of two sets of proportional counters, each with ~0.084 m2 effective area. The counters were sensitive with more than 10% efficiency to X-ray photons in the ~2–20 keV range. The lower energy limit was determined by the attenuation of the beryllium windows of the counter plus a thin thermal shroud that was needed to maintain temperature stability of the spacecraft. The upper energy limit was determined by the transmission properties of the counter filling gas. Pulse-shape discrimination and anticoincidence techniques were used to filter out emissions of particles and undesirable high-energy photons in the background. Pulse-height analysis in eight energy channels was used to obtain information on the energy spectrum of the incident photons. The two sets of counters were placed back to back and were collimated to 0.52° X 0.52° and 5.2° X 5.2° (full width at half maximum) respectively. While the 0.52° detector gave finer angular resolution, the 5.2° detector had higher sensitivity for isolated sources.
Uhuru achieved several outstanding scientific advances, including the discovery and detailed study of the pulsing accretion-powered binary X-Ray sources such as Cen X-3, Vela X-1, and Her X-1, the identification of Cygnus X-1, the first strong candidate for an astrophysical black hole, and many important extragalactic sources. The Uhuru Catalog, issued in four successive versions, the last being the 4U catalog, was the first comprehensive X-ray catalog, contains 339 objects and covers the whole sky in the 2—6 keV band. The final version of the source catalog is known as the 4U Catalog; earlier versions were the 2U and 3U catalogs. Sources are referenced as, e.g., "4U 1700-37".