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(Top) 1 History of Exosat 2 Satellite operations 3 References 4 External links

EXOSAT

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EXOSAT
Spacecraft properties
EXOSAT

Mission type	Astronomy
Operator	ESA
COSPAR ID	1983-051A
SATCAT no.	14095
Website	www.esa.int/export/esaSC/120394_index_0_m.html
Mission duration	3 years


Manufacturer	MBB
Launch mass	510.0 kg (1,124.4 lb)
Power	165.0 watts


Start of mission
Launch date	26 May 1983, 15:18:00 (1983-05-26UTC15:18Z) UTC
Rocket	Delta 3914 D169
Launch site	Vandenberg SLC-2W


End of mission
Decay date	5 May 1986 (1986-05-06)


Orbital parameters
Reference system	Geocentric
Regime	Low Earth
Eccentricity	0.93428
Perigee altitude	347 km (216 mi)
Apogee altitude	191,709 km (119,122 mi)
Inclination	72.5 degrees
Period	5,435.4 minutes
Epoch	26 May 1983, 11:18:00 UTC^[1]

Legacy ESA insignia for the EXOSAT mission

The European X-ray Observatory Satellite (EXOSAT), originally named HELOS, was an X-ray telescope operational from May 1983 until April 1986 and in that time made 1780 observations in the X-ray band of most classes of astronomical object including active galactic nuclei, stellar coronae, cataclysmic variables, white dwarfs, X-ray binaries, clusters of galaxies, and supernova remnants.

This European Space Agency (ESA) satellite for direct-pointing and lunar-occultation observation of X-ray sources beyond the Solar System was launched into a highly eccentric orbit (apogee 200,000 km, perigee 500 km) almost perpendicular to that of the Moon on 26 May 1983. The instrumentation includes two low-energy imaging telescopes (LEIT) with Wolter I X-ray optics (for the 0.04–2 keV energy range), a medium-energy experiment using Ar/CO₂ and Xe/CO₂ detectors (for 1.5–50 keV), a Xe/He gas scintillation spectrometer (GSPC) (covering 2–80 keV), and a reprogrammable onboard data-processing computer. Exosat was capable of observing an object (in the direct-pointing mode) for up to 80 hours and of locating sources to within at least 10 arcsec with the LEIT and about 2 arcsec with GSPC.^[2]

History of Exosat[edit]

During the period from 1967 to 1969, the European Space Research Organisation (ESRO) studied two separate missions: a European X-ray observatory satellite, as a combined X- and gamma-ray observatory (Cos-A), and a gamma-ray observatory (Cos-B). Cos-A was dropped after the initial study, and Cos-B was proceeded with.

Later in 1969 a separate satellite (the Highly Eccentric Lunar Occultation Satellite - Helos) was proposed. The Helos mission was to determine accurately the location of bright X-ray sources using the lunar occultation technique. In 1973 the observatory part of the mission was added, and mission approval from the European Space Agency Council was given^[3] for Helos, now renamed Exosat.

It was decided that the observatory should be made available to a wide community, rather than be restricted to instrument developers, as had been the case for all previous ESA (ESRO) scientific programmes. For the first time in an ESA project, this led to the approach of payload funding and management by the Agency. Instrument design and development became a shared responsibility between ESA and hardware groups.

In July 1981 ESA released the first Announcement of Opportunity (AO) for participation in the Exosat observation programme to the scientific community of its Member States. By 1 November 1981, the closing of the AO window, some 500 observing proposals had been received. Of these, 200 were selected for the first nine months of operation.^[2]

Exosat was the first ESA spacecraft to carry on board a digital computer (OBC), with its main purpose being scientific data processing. Spacecraft monitoring and control were secondary. To provide the data handling subsystem with an exceptional flexibility of operation, the OBC and Central Terminal Unit were in-flight reprogrammable. This flexibility far exceeded any other ESA spacecraft built up to then.

Satellite operations[edit]

Each of the three axes were stabilized and the optical axes of the three scientific instruments were coaligned. The entrance apertures of the scientific instruments were all located on one face of the central body. Once in orbit the flaps which cover the entrances to the ME and LEIT were swung open to act as thermal and stray-light shields for the telescopes and star trackers, respectively.^[2]

The orbit of Exosat was different from any previous X-ray astronomy satellite. To maximize the number of sources occulted by the Moon, a highly eccentric orbit (e ~ 0.93) with a 90.6 hr period and an inclination of 73° was chosen.^[4] The initial apogee was 191,000 km and perigee 350 km. To be outside the Earth's radiation belts, the scientific instruments were operated above ~50,000 km, giving up to ~76 hr per 90 hr orbit.^[4] There was no need for any onboard data storage as Exosat was visible from the ground station at Villafranca, Spain for practically the entire time the scientific instruments were operated.

References[edit]

^ "EXOSAT". NASA Space Science Data Coordinated Archive. NASA. Retrieved October 23, 2017.

^ ^a ^b ^c Hoff HA (Aug 1983). "EXOSAT - The new extrasolar X-ray observatory". J Brit Interplan Soc. (Space Chronicle). 36 (8): 363–7. Archived from the original on 2012-08-29.

^ Taylor BG, Andresen RD, Peacock A, Zobl R (Mar 1981). "The Exosat mission". Space Sci. Rev. 30 (1–4): 479–94. Bibcode:1981SSRv...30..479T. doi:10.1007/BF01246069. S2CID 120475350.

^ ^a ^b White NE, Peacock A (1988). "The Exosat observatory". Societa Astronomica Italiana, Memorie. 59 (1–2): 7–31. Bibcode:1988MmSAI..59....7W.

External links[edit]

ESA's X-ray Observatory (EXOSAT at ESTEC, ESA) on the internet
Data archive at NASA High Energy Astrophysics Science Archive Center (HEASARC)

Space telescopes

Operating

Radio and Microwave	NCLE (since 2018) Solar Orbiter (since 2020) STEREO (since 2006) Queqiao (since 2018) Wind (since 1994) Queqiao 2 (since 2024)
Infrared	James Webb (since 2022) Odin (since 2001) SOLAR (since 2008) WISE (since 2009)
Optical	Aoi (since 2018) Astrosat (since 2015) BRITE constellation (since 2013) CHASE (since 2021) CHEOPS (since 2019) DSCOVR (since 2015) Euclid (since 2023) Hayabusa2 (since 2021) Gaia (since 2013) HiRISE (since 2005) Hubble (since 1990) Hinode (Solar-B) (since 2006) NEOSSat (since 2013) Odin (since 2001) SDO (since 2010) SOHO (since 1995) SOLAR (since 2008) Swift (since 2004) TESS (since 2018)
Ultraviolet	Aditya-L1 (since 2023) ASO-S (since 2022) Astrosat (since 2015) Hibari (since 2021) Hinode (Solar-B) (since 2006) IRIS (since 2013) SDO (since 2010) SOHO (since 1995) SOLAR (since 2008) Solar Orbiter (since 2020) STEREO (since 2006) Swift (since 2004)
X-ray and Gamma-ray	AGILE (since 2007) CALET (since 2015) Chandra (AXAF) (since 1999) DAMPE (since 2015) Einstein Probe (since 2024) HXMT (Insight) (since 2017) INTEGRAL (since 2002) Fermi (since 2008) GECAM (since 2020) IXPE (since 2021) Spektr-RG (since 2019) SVOM (since 2024) Swift (since 2004) Max Valier Sat (since 2017) MAXI (since 2009) MinXSS-2 (since 2018) NICER (since 2017) NuSTAR (since 2012) LEIA (since 2022) XRISM (since 2023) XPoSat (since 2024) XMM-Newton (since 1999)
Other (particle or unclassified)	ACE (since 1997) AMS-02 (since 2011) CALET (since 2015) DAMPE (since 2015) IBEX (since 2008) ISS-CREAM (since 2017) Mini-EUSO (since 2019) SOHO (since 1995) Solar Orbiter (since 2020) STEREO (since 2006)

Planned

ILO-X (2024)
PETREL (2024)
SPHEREx (2025)
K-EUSO (2026)
Nancy Grace Roman Space Telescope (2026)
PLATO (2026)
Xuntian (2026)
COSI (2027)
LORD (2027)
JASMINE (2028)
NEO Surveyor (2028)
Solar-C EUVST (2028)
ARIEL (2029)
Spektr-UV (2030)
UVEX (2030)
Spektr-M (2030+)
LiteBIRD (2032)
Taiji (2033)
Athena (2035)
LISA (2035)

Proposed

Retired

Akari (Astro-F) (2006–2011)
ALEXIS (1993–2005)
Alouette 1 (1962–1972)
Ariel 1 (1962, 1964)
Ariel 2 (1964)
Ariel 3 (1967–1969)
Ariel 4 (1971–1972)
Ariel 5 (1974–1980)
Ariel 6 (1979–1982)
ASTERIA (2017–2019)
ATM (1973–1974)
ASCA (Astro-D) (1993–2000)
Astro-1 (1990)
- BBXRT
- HUT
Astro-2 (HUT) (1995)
Astron (1983–1991)
ANS (1974–1976)
BeppoSAX (1996–2003)
CHIPSat (2003–2008)
Compton (CGRO) (1991–2000)
CoRoT (2006–2013)
Cos-B (1975–1982)
COBE (1989–1993)
CXBN-2 (2017–2019)
DXS (1993)
EPOCh (2008)
EPOXI (2010)
Explorer 11 (1961)
EXOSAT (1983–1986)
EUVE (1992–2001)
FUSE (1999–2007)
Kvant-1 (1987–2001)
GALEX (2003–2013)
Gamma (1990–1992)
Ginga (Astro-C) (1987–1991)
Granat (1989–1998)
Hakucho (CORSA-b) (1979–1985)
HALCA (MUSES-B) (1997–2005)
HEAO-1 (1977–1979)
Herschel (2009–2013)
Hinotori (Astro-A) (1981–1991)
Hisaki (SPRINT-A) (2013–2023)
HEAO-2 (Einstein Obs.) (1978–1982)
HEAO-3 (1979–1981)
HETE-2 (2000–2008)
Hipparcos (1989–1993)
IUE (1978–1996)
IRAS (1983)
IRTS (1995–1996)
ISO (1996–1998)
IXAE (1996–2004)
Kepler (2009–2018)
Kristall (1990–2001)
LEGRI (1997–2002)
LISA Pathfinder (2015–2017)
MinXSS (2015–2017)
MOST (2003–2019)
MSX (1996–1997)
Mikhailo Lomonosov (2016–2019?)
OAO-2 (1968–1973)
OAO-3 (Copernicus) (1972–1981)
Orbiting Solar Observatory
- OSO 1
- OSO B
- OSO 3
- OSO 4
- OSO 5
- OSO 6
- OSO 7
- OSO 8
Orion 1 (1971)
Orion 2 (1973)
PAMELA (2006–2016)
PicSat (2018)
Planck (2009–2013)
RELIKT-1 (1983–1984)
R/HESSI (2002–2018)
ROSAT (1990–1999)
RXTE (1995–2012)
SAMPEX (1992–2004)
SAS-B (1972–1973)
SAS-C (1975–1979)
Solwind (1979–1985)
Spektr-R (2011–2019)
Spitzer (2003–2020)
Suzaku (Astro-EII) (2005–2015)
Taiyo (SRATS) (1975–1980)
Tenma (Astro-B) (1983–1985)
Uhuru (1970–1973)
Vanguard 3 (1959)
WMAP (2001–2010)
Yokoh (Solar-A) (1991–2001)

Hibernating
(Mission completed)

SWAS (1998–2005)
TRACE (1998–2010)

Lost/Failed

OAO-1 (1966)
OAO-B (1970)
CORSA (1976)
CXBN (2012–2013)
OSO C (1965)
ABRIXAS (1999)
HETE-1 (1996)
WIRE (1999)
Astro-E (2000)
Tsubame (2014–2015)
Hitomi (Astro-H) (2016)

Cancelled

Category:Space telescopes

European Space Agency

Spaceports	Guiana Space Centre Esrange
Launch vehicles	Ariane 5 Ariane 6 Vega
Facilities	Space Operations Centre Space Research and Technology Centre ESA Centre for Earth Observation European Astronaut Centre Space Astronomy Centre Space Applications and Telecommunications Centre Concurrent Design Facility Space Telescope European Coordinating Facility
Communications	ESTRACK European Data Relay System
Programmes	Artemis ESM Aurora ATV Copernicus Sentinel Columbus CryoSat EGNOS GALILEO ELIPS ExoMars FLPP Living Planet Programme Space Situational Awareness Programme Science Programme Horizon 2000 Cosmic Vision Pride
Predecessors	European Launcher Development Organisation European Space Research Organisation
Related topics	Arianespace ESA Television EUMETSAT European Space Camp GEWEX Planetary Science Archive

Projects and missions

Science

Solar physics	ISEE-2 (1977–1987) Ulysses (1990–2009) SOHO (1995–present) Cluster II (2000–present) Solar Orbiter (2020–present) Vigil (2031)
Planetary science	Giotto (1985–1992) Huygens (1997–2005) SMART-1 (2003–2006) Mars Express (2003–present) Rosetta/Philae (2004–2016) Venus Express (2005–2014) ExoMars Trace Gas Orbiter (2016–present) BepiColombo (2018–present) Jupiter Icy Moons Explorer (2023) Hera (2024) Rosalind Franklin rover (2028) Comet Interceptor (2029) EnVision (2031)
Astronomy and cosmology	Cos-B (1975–1982) IUE (1978–1996) EXOSAT (1983–1986) Hipparcos (1989–1993) Hubble Space Telescope (1990–present) Eureca (1992–93) ISO (1995–1998) XMM-Newton (1999–present) INTEGRAL (2002–present) CoRoT (2006–13) Planck (2009–2013) Herschel (2009–2013) Gaia (2013–present) CHEOPS (2019–present) James Webb Space Telescope (2021–present) Euclid (2023–present) PLATO (2026) ARIEL (2029) ARRAKIHS (2030s) Athena (2035) LISA (2035)
Earth observation	Copernicus (1988–present) Meteosat First Generation (1977–1997) ERS-1 (1991–2000) ERS-2 (1995–2011) Meteosat Second Generation (2002–present) Envisat (2002–2012) Double Star (2003–2007) MetOp (2006–present) GOCE (2009–2013) SMOS (2009–present) CryoSat-2 (2010–present) Swarm (2013–present) Sentinel-1 / 1A / 1B (2014–present) Sentinel-2 / 2A / 2B (2015–present) Sentinel-3 / 3A / 3B (2016–present) Sentinel-5 Precursor (2017–present) ADM-Aeolus (2018–present) Biomass (2024) EarthCARE (2024) Meteosat Third Generation (Sentinel-4) (2024) ALTIUS (2025) FLEX (2025) MetOp-SG-A (2025) MetOp-SG-B (2025) SMILE (2025) FORUM (2027)

ISS spaceflight

ISS contribution (1998–present)
Columbus (2008–present)
Jules Verne (2008)
Cupola (2010–present)
Johannes Kepler (2011)
Edoardo Amaldi (2012)
Albert Einstein (2013)
Georges Lemaître (2014)
European Robotic Arm (2021)

Telecommunications

GEOS 2 (1978)
Olympus-1 (1989–1993)
Artemis (2001–present)
GIOVE-A (2005–present)
GIOVE-B (2008–present)
HYLAS-1 (2010–present)
Galileo IOV (2011–present)
Galileo FOC (2014–present)
EGNOS
European Data Relay System (2016–present)

Technology
demonstrators

ARD (1998)
PROBA-1 (2001–present)
YES2 (2007)
PROBA-2 (2009–present)
PROBA-V (2013–present)
IXV (2015)
LISA Pathfinder (2015–2017)
OPS-SAT (2019–present)
PROBA-3 (2024)

Cancelled
and proposed

Failed

Future missions in italics

v t e ← 1982 Orbital launches in 1983 1984 →
January	Kosmos 1437 Unnamed
February	OPS 0252 OPS 0252 SSU-1 OPS 0252 SSU-2 OPS 0252 SSU-3
March	Kosmos 1443 NOAA-8
April	STS-6 (TDRS-1) OPS 2925 Soyuz T-8
May	Intelsat V F-6
June	OPS 6432 OPS 6432 SSU-1 OPS 6432 SSU-2 OPS 6432 SSU-3 ECS-1 OSCAR-10 STS-7 (Anik C2, Palapa B1, SPAS-01, OSTA-2) OPS 0721 OPS 3899 Soyuz T-9
July	OPS 7304
August	Progress 17
September	STS-8 (INSAT-1B)
October	Intelsat V F-7 Progress 18
November	STS-9
Unknown month	Kosmos 1428 Kosmos 1429 Kosmos 1430 Kosmos 1431 Kosmos 1432 Kosmos 1433 Kosmos 1434 Kosmos 1435 Kosmos 1436 IRAS PIX-2 Kosmos 1438 Sakura 2a Kosmos 1439 LIPS-2 Kosmos 1440 Kosmos 1441 Tenma Kosmos 1442 Kosmos 1444 Molniya-3 No.34 Ekran No.18L Kosmos 1445 Kosmos 1446 Molniya-1-56 Astron Kosmos 1447 Kosmos 1448 Kosmos 1449 Molniya-1 No.68 Kosmos 1450 Gran' No.23L Kosmos 1451 Satcom 1R Kosmos 1452 Rohini RS-D2 Kosmos 1453 Kosmos 1454 Kosmos 1455 Kosmos 1456 Kosmos 1457 Kosmos 1458 GOES 6 Kosmos 1459 Kosmos 1460 Kosmos 1461 Kosmos 1462 Kosmos 1463 Kosmos 1464 Kosmos 1465 Kosmos 1466 EXOSAT Kosmos 1467 Venera 15 Venera 16 Kosmos 1468 Kosmos 1469 Kosmos 1470 HILAT Kosmos 1471 Galaxy 1 Gorizont No.17L Prognoz 9 Kosmos 1472 Kosmos 1473 Kosmos 1474 Kosmos 1475 Kosmos 1476 Kosmos 1477 Kosmos 1478 Kosmos 1479 Kosmos 1480 Kosmos 1481 Kosmos 1482 OPS 7994 Molniya-1 No.66 Kosmos 1483 Kosmos 1484 Kosmos 1485 Telstar 301 Kosmos 1486 Kosmos 1487 Sakura 2b Kosmos 1488 Kosmos 1489 Kosmos 1490 Kosmos 1491 Kosmos 1492 Fanhui Shi Weixing 6 Kosmos 1493 Gran' No.24L Molniya-3 No.32 Kosmos 1494 Kosmos 1495 Kosmos 1496 Satcom 2R Kosmos 1497 Kosmos 1498 Kosmos 1499 Galaxy-2 Soyuz 7K-ST No. 16L Kosmos 1500 Ekran No.25L Kosmos 1501 Kosmos 1502 Kosmos 1503 Kosmos 1504 Kosmos 1505 Kosmos 1506 Meteor-2 No.10 Kosmos 1507 Kosmos 1508 Kosmos 1509 OPS 1294 Molniya-1 No.48 Kosmos 1510 Kosmos 1511 Gorizont No.18L Kosmos 1512 Kosmos 1513 Kosmos 1514 Kosmos 1515 Molniya-3 No.35 Kosmos 1516 Kosmos 1517 Kosmos 1518 Kosmos 1519 Kosmos 1520 Kosmos 1521
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).

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