Far Ultraviolet Spectroscopic Explorer

The Far Ultraviolet Spectroscopic Explorer (FUSE) is a space-based telescope operated by the Johns Hopkins University Applied Physics Laboratory. FUSE was launched on a Delta II rocket on 24 June 1999, as a part of NASA's Origins program. FUSE detected light in the far ultraviolet portion of the electromagnetic spectrum, between 90.5-119.5 nanometres, which is mostly unobservable by other telescopes. Its primary mission was to characterize universal deuterium in an effort to learn about the stellar processing times of deuterium left over from the Big Bang. FUSE resides in a low Earth orbit, approximately 760 km (410 nmi) in altitude, with an inclination of 25 degrees and just less than a 100-minute orbital period. Its Explorer designation is Explorer 77.

On 12 July 2007, FUSE's final reaction wheel, which is required for accurately pointing a spacecraft, failed and efforts to restart it were unsuccessful. An announcement was made on 6 September that because the fine control needed to perform its mission had been lost, the FUSE mission would be terminated.^[7]

Optical design

Although the original specification was to have a Wolter-type grazing incidence telescope,^[8] the final design of the FUSE telescope comprises four individual mirrors. Each of the four mirrors is a 39-by-35 cm (15.4-by-13.8 in) off-axis parabola. Two mirror segments are coated with silicon carbide for reflectivity at the shortest ultraviolet wavelengths, and two mirror segments are coated with lithium fluoride over aluminum that reflects better at longer wavelengths. This optimizes performance over the entire spectral range.^[1]

Each mirror has a corresponding astigmatism-corrected, holographically-ruled diffraction grating, each one on a curved substrate so as to produce four 1.65 m (5.4 ft) Rowland circle spectrographs. The dispersed ultraviolet light is detected by two microchannel plate intensified double delay-line detectors, whose surfaces are curved to match the curvature of the focal plane.^[9]

Science results

Over 400 scientific papers have been written using data from FUSE,^[10] with subjects ranging from cool stars to the intergalactic medium. One of the primary science goals of FUSE was to study the abundance of deuterium, an isotope of hydrogen. Because of the large number of atomic absorption and emission lines in the far-ultraviolet, FUSE enabled many studies of galactic, extragalactic and intergalactic chemistry and chemical evolution.

References

1 2 3 "FUSE". National Space Science Data Center. Retrieved 19 April 2016.
↑ "Far Ultraviolet Spectroscopic Explorer". Space Telescope Science Institute. Retrieved 19 April 2016.
↑ Venere, Emil (16 August 1995). "Hopkins Chooses Orbital Sciences Corp. To Build Spacecraft" (Press release). Johns Hopkins University. Retrieved 19 April 2016.
1 2 3 Miller, Michael W. (1998). Far Ultraviolet Spectroscopic Explorer spacecraft development. 1998 IEEE Aerospace Conference. 21–28 March 1998. Aspen, Colorado. doi:10.1109/AERO.1998.685851.
1 2 "NSSDC Master Catalog Display: Spacecraft Launch/Orbital Information". NASA.gov. Retrieved 1 January 2014.
↑ "FUSE - Orbit". Heavens Above. 18 April 2016. Retrieved 19 April 2016.
↑ NASA HQ (6 September 2007). "ROSES-07 Amendment 20: Cancel FUSE Legacy Science Program". Spaceref.com. Retrieved 7 September 2007.
↑ Content, David A.; et al. (July 1990). "Optical design of Lyman/FUSE". Instrumentation in Astronomy VII. 1235: 943–952. Bibcode:1994SPIE.2011...34K. doi:10.1117/12.19157.
↑ Sahnow, D.J.; et al. (3 July 1995). "The Far Ultraviolet Spectroscopic Explorer Mission". JHU.edu. Retrieved 7 September 2007.
↑ "FUSE Publications". JHU.edu. Retrieved 7 September 2007.

External links

FUSE website at Johns Hopkins University
FUSE website at Institut d'Astrophysique de Paris
FUSE archive at Multimission Archive at STScI (MAST)

Space observatories

Operating	AGILE AMS-02 Astrosat CALET Chandra (AXAF) DAMPE Fermi Gaia Hinode (Solar-B) HiRISE Hisaki (SPRINT-A) Hubble INTEGRAL IBEX IRIS Kepler LISA Pathfinder MAXI Mikhailo Lomonosov MOST NEOSSat NuSTAR Odin PAMELA R/HESSI SDO SOHO SOLAR Spektr-R Spitzer Swift TUGSAT-1 & UniBRITE-1 WISE XMM-Newton

Planned	HXMT (2016) ISS-CREAM (2016) NICER (2017) CHEOPS (2017) Nano-JASMINE (2017) Spektr-RG (2017) TESS (2017) James Webb (JWST) (2018) Solar Orbiter (SolO) (2018) K-EUSO (2019) iWF-MAXI (2019) Public Telescope (PST) (2019) Astro-1 Telescope (2020) Euclid (2020) Spektr-UV (2021) SVOM (2021) Space Solar Telescope Xuntian (2022) Solar-C (2023) PLATO (2024) Spektr-M (2025) ATHENA (2028) eLISA (2034)

Proposed	ATLAST Astro-H Succesor DIOS EXCEDE Fresnel Imager FINESSE FOCAL HDST Hypertelescope LiteBIRD LUVOIR NEOCam New Worlds Mission NRO donation to NASA Small-JASMINE Sentinel Solar-D SPICA THEIA WFIRST EUSO

Retired	Akari (Astro-F) (2006–11) ALEXIS (1993–2005) ATM (1973–74) ASCA (Astro-D) (1993–2000) Astro-1 (BBXRT HUT) (1990) Astro-2 (HUT) (1995) Astron (1983–89) ANS (1974–76) BeppoSAX (1996–2003) CHIPSat (2003–08) Compton (CGRO) (1991–2000) COROT (2006–13) Cos-B (1975–82) COBE (1989–93) EPOCh (2008) EPOXI (2010) EXOSAT (1983–86) EUVE (1992–2001) FUSE (1999–2007) Kvant-1 (1987–2001) GALEX (2003–13) Gamma (1990–92) Ginga (Astro-C) (1987–91) Granat (1989–98) Hakucho (CORSA-ｂ) (1979–85) HALCA (MUSES-B) (1997–2005) HEAO-1 (1977–79) Herschel (2009–13) Hinotori (Astro-A) (1981–91) HEAO-2 (Einstein Obs.) (1978–82) HEAO-3 (1979–81) HETE-2 (2000–07?) Hipparcos (1989–93) IUE (1978–96) IRAS (1983) IRTS (1995–96) ISO (1996–98) IXAE (1996–2004) Kristall (1990–2001) LEGRI (1997–2002) MSX (1996–97) OAO-2 (1968–73) OAO-3 (Copernicus) (1972–81) Orion 1/2 (1971/1973) Planck (2009–13) RELIKT-1 (1983–84) ROSAT (1990–99) RXTE (1995–2012) SAMPEX (1992–2004) SAS-B (1972–73) SAS-C (1975–79) Suzaku (Astro-EII) (2005–15) Taiyo (SRATS) (1975-80) Tenma (Astro-B) (1983–1985) Uhuru (1970–73) WMAP (2001–10) WISE (first mission: 2009–11) Yokoh (Solar-A) (1991–2001)

Hibernating (Mission completed)	SWAS (1998–2005) TRACE (1998–2010)

Lost	OAO-1/OAO-B (1966/1970) CORSA (1976) ABRIXAS (1999) HETE (1996) WIRE (1999) Astro-E (2000) Hitomi (Astro-H) (2016)

Cancelled	Astro-G Constellation-X Darwin Destiny EChO Eddington FAME GEMS IXO JDEM LOFT SIM & SIMlite SNAP TAUVEX TPF XEUS

See also	Great Observatories program List of space telescopes List of proposed space observatories

Category

Explorers program

Explorer	Explorer 1 2 3 4 5 6 (S-2) 7 (S-1a) 8 S-56 9 (S-56A) 10 11 (S-15) 14 (EPE-B) 17 (AE-A) 19 30 (Solrad 8) 32 (AE-B) 33 (IMP-D) 34 35 (IMP-E) 37 (Solrad 9) 39 42 (Uhuru) 44 (Solrad 10) 48 (SAS B) 49 (RAE-B) 52 (Hawkeye 1) 53 (SAS C) 56 (ISEE-1) 57 (IUE) 58 (HCMM) 59 (ICE) 61 (Magsat) 62 (DE-1) 63 (DE-2) 64 (SME) 66 (COBE) 67 (EUVE) 68 (SAMPEX)

MIDEX	50 (IMP-8) 69 (RXTE) 71 (ACE) 77 (FUSE) 78 (IMAGE) 80 (WMAP) 84 (Swift) 85 thru 89 (THEMIS) 92 (WISE) ICON^‡ TESS^‡

SMEX	68 (SAMPEX) 70 (FAST) 73 (TRACE) 74 (SWAS) 75 (WIRE) 81 (RHESSI) 83 (GALEX) 90 (AIM) 91 (IBEX) 93 (NuSTAR) 94 (IRIS)

UNEX	72 (SNOE) 82 (CHIPSat)

MO	79 (HETE-2) CINDI Suzaku TWINS Hitomi GOLD^‡ NICER^‡

International	INTEGRAL

Italics indicates probes that failed to deploy or otherwise malfunctioned · ^‡ indicate missions yet to launch.

← 1998 · Orbital launches in 1999 · 2000 →

Mars Polar Lander \| ROCSAT-1 \| Stardust \| Globalstar 23 · Globalstar 36 · Globalstar 38 · Globalstar 40 \| Telstar 6 \| JCSAT-6 \| Soyuz TM-29 \| ARGOS · Ørsted · SUNSAT \| Arabsat 3A · Skynet 4E \| Globus No.15 \| Wide Field Infrared Explorer \| Globalstar 23 · Globalstar 37 · Globalstar 41 · Globalstar 46 \| AsiaSat 3S \| DemoSat \| Progress M-41 · Sputnik 99 \| INSAT-2E \| USA-142 \| Eutelsat W3 \| Globalstar 19 · Globalstar 42 · Globalstar 44 · Globalstar 45 \| Landsat 7 \| UoSAT-12 \| Ikonos-1 \| ABRIXAS · Megsat-0 \| USA-143 \| Orion 3 \| Feng Yun 1C · Shijian 5 \| TERRIERS · MUBLCOM \| Nimiq 1 \| USA-144 \| Oceansat-1 · Kitsat-3 · DLR-Tubsat \| STS-96 (Starshine 1) \| Globalstar 25 · Globalstar 47 · Globalstar 49 · Globalstar 52 \| Iridium 14A · Iridium 21A \| Astra 1H \| QuikSCAT \| FUSE \| Gran' No.45 \| Molniya 3-50 \| Globalstar 30 · Globalstar 32 · Globalstar 35 · Globalstar 51 \| Progress M-42 \| Okean-O No.1 \| STS-93 (Chandra) \| Globalstar 26 · Globalstar 28 · Globalstar 43 · Globalstar 48 \| Telkom 1 · Globalstar 24 · Globalstar 27 · Globalstar 53 · Globalstar 54 \| Kosmos 2365 \| Kosmos 2366 \| Koreasat 3 \| Yamal-101 · Yamal-102 \| Foton 12 \| Globalstar 33 · Globalstar 50 · Globalstar 55 · Globalstar 58 \| EchoStar V \| Ikonos 2 \| Telstar 7 \| LMI-1 \| Resurs F-1M \| USA-145 \| DirecTV-1R \| CBERS-1 · SACI-1 \| Globalstar 31 · Globalstar 56 · Globalstar 57 · Globalstar 59 \| Orion 2 \| Ekspress A1 \| GE-4 \| MTSAT-1 \| Shenzhou 1 \| Globalstar 29 · Globalstar 34 · Globalstar 39 · Globalstar 61 \| USA-146 \| Hélios 1B · Clémentine \| Orbcomm FM30 · Orbcomm FM31 · Orbcomm FM32 · Orbcomm FM33 · Orbcomm FM34 · Orbcomm FM35 · Orbcomm FM36 \| XMM-Newton \| SACI-2 \| USA-147 \| Terra \| STS-103 \| Arirang-1 · ACRIMSAT · Millennial \| Galaxy 11 \| Kosmos 2367 \| Kosmos 2368

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

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Far Ultraviolet Spectroscopic Explorer

Optical design

Science results

See also

References

External links