 Einstein Observatory | |
| Mission type | Astronomy |
|---|---|
| Operator | NASA |
| COSPAR ID | 1978-103A |
| SATCATno. | 11101 |
| Website | Einstein Observatory at NASA.gov |
| Mission duration | 4 years |
| Spacecraft properties | |
| Manufacturer | TRW |
| Dry mass | 3,130 kilograms (6,900 lb) |
| Start of mission | |
| Launch date | 13 November 1978 (1978-11-13) 05:24 UTC |
| Rocket | Atlas SLV-3D Centaur-D1AR |
| Launch site | Cape CanaveralLC-36B |
| End of mission | |
| Last contact | 17 April 1981 (1981-04-17) |
| Decay date | 26 May 1982 |
| Orbital parameters | |
| Reference system | Geocentric |
| Regime | Low Earth |
| Perigee altitude | 465 kilometres (289 mi) |
| Apogee altitude | 476 kilometres (296 mi) |
| Inclination | 23.5° |
| Period | 94.0 minutes |
| Epoch | 13 November 1978 05:24:00 UTC |
Einstein Observatory (HEAO-2) was the first fully imagingX-ray telescope put into space and the second ofNASA's threeHigh Energy Astrophysical Observatories. NamedHEAO B before launch, the observatory's name was changed to honorAlbert Einstein upon its successfully attaining orbit.[1]
TheHigh Energy Astronomy Observatory (HEAO) program originated in the late 1960's within the Astronomy Missions Board at NASA, which recommended the launch of a series of satellite observatories dedicated to high-energy astronomy. In 1970, NASA requested proposals for experiments to fly on these observatories, and a team organized byRiccardo Giacconi,Herbert Gursky,George W. Clark,Elihu Boldt, and Robert Novick responded in October 1970 with a proposal for an X-ray telescope. NASA approved four missions in the HEAO program, with the X-ray telescope planned to be the third mission.[2]
One of the three missions of the HEAO program was cancelled in February 1973, due to budgetary pressures within NASA that briefly resulted in the cancellation of the entire program, and the x-ray observatory was moved up to become the second mission of the program, receiving the designation HEAO B (later HEAO-2), and scheduled to launch in 1978.[3]
HEAO-2 was constructed byTRW Inc. and shipped toMarshall Space Flight Center inHuntsville, AL for testing in 1977.[4]
HEAO-2 was launched on November 13, 1978, fromCape Canaveral, Florida, on anAtlas-Centaur SLV-3D booster rocket into a near-circular orbit at an altitude of approximately 470 km and orbital inclination of 23.5 degrees.[5] The satellite was renamed Einstein upon achieving orbit, in honor of the centenary of thescientist's birth.
Einstein ceased operations on April 26, 1981, when the exhaustion of the satellite's thruster fuel supply rendered the telescope inoperable.[6] The satellite reentered Earth's atmosphere and burned up on March 25, 1982.[7]
Einstein carried a single largegrazing-incidence focusing X-ray telescope that provided unprecedented levels of sensitivity. It had instruments sensitive in the 0.15 to 4.5keV energy range. Four instruments were installed in the satellite, mounted on a carousel arrangement that could be rotated into the focal plane of the telescope:[8]
Additionally, the Monitor Proportional Counter (MPC) was a non-focal plane, coaxially-mountedproportional counter that monitored the x-ray flux of the source being observed by the active focal plane instrument.
Two filters could be used with the imaging detectors:
Riccardo Giacconi was the principal investigator for all of the experiments on board Einstein.[9]
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Einstein discovered approximately five thousand sources of x-ray emission during its operation[10] and was the first x-ray experiment able to resolve an image of the observed sources.
Surveys by early x-ray astronomy experiments showed auniform diffuse background of x-ray radiation across the sky. The uniformity of this background radiation indicated that it originated outside of theMilky Way Galaxy, with the most popular hypotheses being a hot gas spread uniformly throughout space, or numerous distant point sources of x-rays (such asquasars) that appear to blend together due to their great distance. Observations with Einstein showed that a large portion of this x-ray background originated from distant point sources, and observations with later x-ray experiments have confirmed and refined this conclusion.[11]
Observations with Einstein showed that all stars emit x-rays.[12]Main sequence stars emit only a small portion of their total radiation in the x-ray spectrum, primarily from theircorona, whileneutron stars emit a very large portion of their total radiation in the x-ray spectrum.[11] Einstein data also indicated that coronal x-ray emissions in main sequence stars are stronger than was expected at the time.[13]
TheUhuru satellite discovered x-ray emissions from a hot, thin gas pervading distantclusters of galaxies. Einstein was able to observe this gas in greater detail. Einstein data indicated that the containment of this gas within these clusters by gravity could not be explained by the visible matter within those clusters, which provided further evidence for studies ofdark matter. Observations by Einstein also helped to determine the frequency of irregularly-shaped clusters compared to round, uniform clusters.[11]
Einstein detectedjets of x-rays emanating fromCentaurus A andM87 that were aligned with previously-observed jets in the radio spectrum.[13]
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| Authority control databases: National |
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