Einstein Observatory - Spacecraft

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Einstein Observatory (HEAO-2) was the first fully imaging X-ray telescope put into space and the second of NASA's three High Energy Astrophysical Observatories. Named HEAO B before launch, the observatory's name was changed to honor Albert Einstein upon its successfully attaining orbit.[1]

Einstein Observatory
Spacecraft properties
Einstein Observatory

Mission type	Astronomy
Operator	NASA
COSPAR ID	1978-103A
SATCAT no.	11101
Website	Einstein Observatory at NASA.gov
Mission duration	4 years


Manufacturer	TRW
Dry mass	3,130 kilograms (6,900 lb)


Start of mission
Launch date	13 November 1978, 05:24 (1978-11-13UTC05:24) UTC
Rocket	Atlas SLV-3D Centaur-D1AR
Launch site	Cape Canaveral LC-36B


End of mission
Last contact	17 April 1981 (1981-04-18)
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

Project conception and design

The High 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 by Riccardo 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 by TRW Inc. and shipped to Marshall Space Flight Center in Huntsville, AL for testing in 1977.[4]

History

HEAO-2 was launched on November 13, 1978, from Cape Canaveral, Florida, on an Atlas-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 the scientist'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]

Instrumentation

Einstein carried a single large grazing-incidence focusing X-ray telescope that provided unprecedented levels of sensitivity. It had instruments sensitive in the 0.15 to 4.5 keV 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]

The High Resolution Imaging camera (HRI) was a digital x-ray camera covering the central 25 arcmin of the focal plane. The HRI was sensitive to x-ray emissions between 0.15 and 3 keV and capable of ~2 arcsec spatial resolution.
The Imaging Proportional Counter (IPC) was a proportional counter covering the entire focal plane. The IPC was sensitive to x-ray emissions between 0.4 and 4 keV and capable of ~1 arcmin spatial resolution.
The Solid State Spectrometer (SSS) was a cryogenically cooled silicon drift detector. The SSS was sensitive to x-ray emissions between 0.5 and 4.5 keV. The cryogen keeping the SSS at its operational temperature ran out, as expected, in October 1979.
Bragg Focal Plane Crystal Spectrometer (FPCS) was a Bragg crystal spectrometer. The FPCS was sensitive to x-ray emissions between 0.42 and 2.6 keV.

Additionally, the Monitor Proportional Counter (MPC) was a non-focal plane, coaxially-mounted proportional 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:

The Broad Band Filter Spectrometer consisted of aluminum and beryllium filters than could be placed into the x-ray beam to change the spectral sensitivity.
The Objective Grating Spectrometer transmission gratings.

Riccardo Giacconi was the principal investigator for all of the experiments on board Einstein.[9]

Scientific results

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.

X-ray background

Surveys by early x-ray astronomy experiments showed a uniform diffuse background of x-ray radiation across the sky. The uniformity of this background radiation indicated that it originated outside of the Milky Way Galaxy, with the most popular hypotheses being a hot gas spread uniformly throughout space, or numerous distant point sources of x-rays (such as quasars) 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]

Stellar x-ray emissions

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 their corona, while neutron 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]

Galaxy clusters

The Uhuru satellite discovered x-ray emissions from a hot, thin gas pervading distant clusters 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 of dark matter. Observations by Einstein also helped to determine the frequency of irregularly-shaped clusters compared to round, uniform clusters.[11]

Galactic jets

Einstein detected jets of x-rays emanating from Centaurus A and M87 that were aligned with previously-observed jets in the radio spectrum.[13]

Sources

Schlegel, Eric M. (2002). The Restless Universe: Understanding X-ray Astronomy in the Age of Chandra and Newton. New York, NY: Oxford University Press. p. 22-23. ISBN 0-19-514847-9. OCLC 62867004.
Tucker, Karen; Tucker, Wallace (1986). The Cosmic Inquirers: Modern Telescopes and Their Makers. Cambridge, MA: Harvard University Press. ISBN 0-674-17436-4. OCLC 12582170.

References

"HEA Heritage Missions: Einstein Observatory". cfa.harvard.edu. Retrieved March 27, 2014.
Tucker & Tucker 1986, p. 61-64.
Tucker & Tucker 1986, p. 72-75.
Tucker & Tucker 1986, p. 83.
"HEAO-2 Launch Information". nssdc.gsfc.nasa.gov/. Retrieved July 14, 2021.
Tucker & Tucker 1986, p. 90.
"Einstein Observatory (HEAO-2)". ecuip.lib.uchicago.edu. Retrieved March 27, 2014.
Giacconi, R.; Branduardi, G.; Briel, U.; Epstein, A.; Fabricant, D.; et al. (1979). "The Einstein /HEAO 2/ X-ray Observatory". The Astrophysical Journal. adsabs.harvard.edu. 230: 540. Bibcode:1979ApJ...230..540G. doi:10.1086/157110. Retrieved March 27, 2014.
"HEAO-2 Experiments". nssdc.gsfc.nasa.gov/. Retrieved July 14, 2021.
Schlegel 2002, p. 22-23.
Tucker & Tucker 1986, p. 93-95.
Schlegel 2002, p. 31.
"The Einstein Observatory (HEAO-2)". National Aeronautics and Space Administration. 2020. Retrieved July 8, 2021.

External links

Media related to HEAO 2 at Wikimedia Commons
Einstein Observatory (HEAO-2)

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Category:Space telescopes

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← 1977 · Orbital launches in 1978 · 1979 →

Payloads are separated by bullets ( · ), launches by pipes ( | ). Crewed flights are indicated in underline. Uncatalogued launch failures are listed in italics. Payloads deployed from other spacecraft are denoted in (brackets).

v t e Albert Einstein
Physics	Special relativity General relativity Mass–energy equivalence (E=mc²) Brownian motion Photoelectric effect Einstein coefficients Einstein solid Equivalence principle Einstein field equations Einstein radius Einstein relation (kinetic theory) Cosmological constant Bose–Einstein condensate Bose–Einstein statistics Bose–Einstein correlations Einstein–Cartan theory Einstein–Infeld–Hoffmann equations Einstein–de Haas effect EPR paradox Bohr–Einstein debates Teleparallelism Thought experiments Unsuccessful investigations Wave–particle duality Gravitational wave Tea leaf paradox
Works	Annus mirabilis papers (1905) "Investigations on the Theory of Brownian Movement" (1905) Relativity: The Special and the General Theory (1916) The Meaning of Relativity (1922) The World as I See It (1934) The Evolution of Physics (1938) "Why Socialism?" (1949) Russell–Einstein Manifesto (1955)
Family	Pauline Koch (mother) Hermann Einstein (father) Maja Einstein (sister) Mileva Marić (first wife) Elsa Einstein (second wife; cousin) Lieserl Einstein (daughter) Hans Albert Einstein (son) Eduard Einstein (son) Bernhard Caesar Einstein (grandson) Evelyn Einstein (granddaughter) Thomas Martin Einstein (great-grandson) Robert Einstein (cousin) Siegbert Einstein (distant cousin)
In popular culture	Die Grundlagen der Einsteinschen Relativitäts-Theorie (1922 documentary) The Einstein Theory of Relativity (1923 documentary) Relics: Einstein's Brain (1994 documentary) Insignificance (1985 film) I.Q. (1994 film) Einstein's Gift (2003 play) Einstein and Eddington (2008 TV film) Genius (2017 series)
Related	Awards and honors Brain House Memorial Political views Religious views List of things named after Albert Einstein Albert Einstein Archives Einstein Papers Project Einstein refrigerator Einsteinhaus Einsteinium Max Talmud
Prizes	Albert Einstein Award Albert Einstein Medal UNESCO Albert Einstein medal Albert Einstein Peace Prize Albert Einstein World Award of Science Einstein Prize for Laser Science Einstein Prize (APS)
Books about Einstein	Albert Einstein: Creator and Rebel Einstein and Religion Einstein for Beginners Einstein: His Life and Universe Einstein's Cosmos I Am Albert Einstein Introducing Relativity Subtle is the Lord
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На других языках

[de] High Energy Astronomy Observatory 2

Das High Energy Astronomy Observatory 2 (auch HEAO-2 oder HEAO B), nach seinem Start auch Einstein-Observatorium genannt, war das erste große Röntgenteleskop im Weltraum mit guter Abbildungsqualität.

- [en] Einstein Observatory

[es] HEAO-2

El Observatorio Einstein fue el primer telescopio capaz de tomar imágenes en rayos X puesto en el espacio y el segundo de los tres que la NASA lanzó dentro del programa High Energy Astronomy Observatory HEAO-2. El observatorio fue nombrado en honor a Albert Einstein tras el lanzamiento. Fue una misión clave en el desarrollo de la astronomía de rayos X y sus resultados científicos cambiaron completamente la visión del cielo que tenían los especialistas en rayos X del momento.

[ru] HEAO-2

Обсерватория HEAO-2 или обсерватория имени Эйнштейна — первая в мире орбитальная обсерватория с зеркалами, имеющими возможность фокусировать рентгеновские лучи. Принцип работы зеркал обсерватории основан на скользящем отражении рентгеновских фотонов, падающих на апертуру телескопа. До запуска обсерватория называлась HEAO-B, после успешного начала работы обсерватория была переименована в обсерваторию имени Эйнштейна.

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