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Wide Field Infrared Explorer

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(Redirected from Wide-field Infrared Explorer) NASA satellite of the Explorer program

Wide-field Infrared Explorer
Wide Field Infrared Explorer spacecraft
NamesExplorer-75
WIRE
SMEX-5
Mission typeInfrared astronomy
OperatorNASA
COSPAR ID1999-011A Edit this at Wikidata
SATCAT no.25646
Websitehttp://www.ipac.caltech.edu/wire/
Mission duration4 months (planned)
1 year, 4 months, 10 days (achieved)
Spacecraft properties
SpacecraftExplorer LXXV
Spacecraft typeWide-field Infrared Explorer
BusWIRE
ManufacturerSpace Dynamics Laboratory (SDL)
Launch mass250 kg (550 lb)
Power160 watts
Start of mission
Launch date5 March 1999, 02:56 UTC
RocketPegasus XL (F26)
Launch siteVandenberg Air Force Base, Stargazer
ContractorOrbital Sciences Corporation
Entered serviceFailed on orbit
End of mission
Deactivated30 September 2000
Last contact23 October 2006
Decay date10 May 2011, 07:00 UTC
Orbital parameters
Reference systemGeocentric orbit
RegimeSun-synchronous orbit
Perigee altitude470 km (290 mi)
Apogee altitude540 km (340 mi)
Inclination97°
SMEX program← Submillimeter Wave Astronomy Satellite (SMEX-3)RHESSI (SMEX-6) → Explorer program← Submillimeter Wave Astronomy Satellite (Explorer 74)TERRIERS (Explorer 76) →

Wide-field Infrared Explorer (WIRE, also Explorer 75 and SMEX-5) was a NASA satellite launched on 5 March 1999, on the Pegasus XL launch vehicle into polar orbit between 409 and 426 km (254 and 265 mi) above the surface of Earth. WIRE was intended to be a four-month infrared survey of the entire sky at 21-27 μm and 9-15 μm, specifically focusing on starburst galaxies and luminous protogalaxies.

WIRE had problems and was unable to carry out its IR survey, and was deactivated on 30 September 2000, and finally reentered and burned up in 2011.

Science

The science team was based at the Infrared Processing and Analysis Center (IPAC) in Pasadena, California. Flight operations, integration, and testing were from Goddard Space Flight Center in Maryland. The telescope was built by Space Dynamics Laboratory in Utah. Premature ejection of the spacecraft aperture cover led to depletion of the solid hydrogen shortly after launch, ending the primary science mission. The onboard star tracker remained functional and was used for long-term precision photometric monitoring of bright stars in support of an asteroseismology program. WIRE reentered atmosphere of Earth on 10 May 2011 (around 07:00 UTC).

The Wide-field Infrared Explorer (WIRE) was a two-color, solid hydrogen-cooled, infrared imaging telescope designed to study starburst galaxies and to search for protogalaxies. The science goals of WIRE were to: 1) determine what fraction of the luminosity of the universe at a redshift of >0.5 is due to starburst galaxies; 2) assess how fast and in what ways starburst galaxies evolve; and, 3) examine whether luminous protogalaxies are common at redshifts <3. In order to accomplish these goals, WIRE was to conduct a four-month survey at 12- and 25-μm over an area of between ten and several hundred square degrees of the sky.

WIRE telescope

The WIRE telescope itself had an entrance aperture of 30 cm (12 in) and a 32 x 32 arcminutes field of view (FoV). It was of a Ritchey–Chrétien telescope design with no moving parts and no reimaging optics.

Shortly after launch, while the spacecraft was still tumbling early after orbit insertion, the telescope cover came off prematurely. This resulted in the exposure of the cryogenic materials to light, warming them at a high rate causing outgassing and increasing the rate of spin of the spacecraft beyond the ability of the reaction wheels to slow it. Although ground controllers began work to decrease the excess spin of the spacecraft, they were not able to do so in time to prevent the total loss of the frozen hydrogen used to cool the primary science instrument. Attempts to recover control of the spacecraft were successful, though as a result of the coolant loss no science data were obtainable.

Mission

A design flaw in the spacecraft control electronics caused the telescope dust cover to eject prematurely in its first few hours on orbit, exposing the telescope to the Earth. In normal operations, the telescope would avoid pointing at the Earth as well as the Sun because the heat load was too high for the cryogenic cooling. At this early stage in the mission, the telescope was deliberately pointed at the Earth for safety under the assumption that the dust cover was present. The influx of power into the telescope caused the solid hydrogen cryostat to boil off all of its cryogen. The cryostat was designed to non-propulsively vent small amounts of gaseous hydrogen as the instruments were cooled. However, due to the unexpected heating, the vent began expelling gas at rates orders of magnitude higher than designed. The over-active vent acted as an uncontrolled, off-axis thruster. Eventually, the attitude control system was unable to counter the thrust of the cryostat vent, and the spacecraft began to spin. By the time the hydrogen supply was exhausted, the spacecraft was spinning as fast as 60 rpm. As the thrust finally abated, spacecraft engineers were able to re-establish attitude control. However, with the cryogen gone, the science instrument was no longer functional and the original science mission ended.

In order to salvage some functionality from the US$73 million spacecraft, operations were redirected after the failure of the cryogenic system to an alternate science mission using the undamaged onboard star tracker for long-term monitoring of bright stars in support of an asteroseismology program. This redirection of mission was proposed by Derek Buzasi, who was not affiliated with the WIRE team, but whose research interests included asteroseismology and detector design, and who was at the time an Assistant Research Scientist on the Cosmic Origins Spectrograph project at the Space Sciences Laboratory at the University of California, Berkeley. The technique of asteroseismology aims to measure very low-amplitude oscillations in nearby stars to probe their structure. While the star tracker had poor spatial resolution, having been designed primarily for a wide field of view and detection of the brightest stars, it was above the atmosphere and thus avoided scintillation, enabling high-precision photometry. As a secondary experiment, one solar array also included a section with reflectors, to test a concentrator system. The WIRE asteroseismology mission was deactivated on 30 September 2000, reactivated through Bowie State University's Satellite Operations and Control Center from 2003 through 2006, then communications were finally lost on 23 October 2006. WIRE re-entered Earth's atmosphere on 10 May 2011.

The original science goals of WIRE may finally be achieved by the Wide-field Infrared Survey Explorer (WISE) (Explorer 92) mission which was successfully launched into orbit on 14 December 2009 and began observations on 14 January 2010.

See also

References

  1. Laher, Russ (16 January 2004). "Complete WIRE Star-Camera Observation History". Infrared Processing and Analysis Center (IPAC). Archived from the original on 6 August 2020. Retrieved 15 March 2021.
  2. "The WIRE Instrument". Infrared Processing and Analysis Center (IPAC). 3 September 1997. Retrieved 3 September 2015.
  3. Shupe, Dave; Laher, Russ; Mabry, Joe; Barlow, Tom (28 April 2006). "Wide-field Infrared Explorer (WIRE)". Infrared Processing and Analysis Center (IPAC). Retrieved 22 November 2008.
  4. ^ "Display: WIRE (1999-011A)". NASA. 28 October 2021. Retrieved 30 November 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  5. ^ Sanders, Robert (27 July 1999). "UCB Astronomer Salvages Disabled NASA Satellite for Stellar Research". University of California, Berkeley. Retrieved 15 March 2021.
  6. "Archived version of IPAC WIRE website". Archived from the original on 28 August 2021.

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