- Granat
Infobox Space telescope
name = International Astrophysical Observatory "GRANAT"
caption = picture credit: NASA
organization =Soviet space program
major_contractors =NPO Lavochkin
alt_names =
nssdc_id = [http://nssdc.gsfc.nasa.gov/database/MasterCatalog?sc=1989-096A 1989-096A]
location =Geocentric orbit
orbit_type = Highly elliptical
height =apogee 200,000 kmperigee 2,000 km (initial values)lower|0.25em|
period = 4 days
velocity =
accel_gravity =
launch_date =1 December 1989
launch_location =Baikonur Cosmodrome (LC200/40)
launch_vehicle =Proton rocket
mission_length = 9 years
deorbit_date =May 25 1999
wavelength =X-ray togamma ray
mass = 4tonne s nowrap|(experiments 2.3 tonnes)
style = coded mask (SIGMA)lower|0.25em| coded mask (ART-P)lower|0.25em|
diameter =
area = 800 cm² (SIGMA)
focal_length =
coolant =
instrument_1_name = SIGMA
instrument_1_characteristics = X-ray/gamma-ray telescope
instrument_2_name = ART-P
instrument_2_characteristics = X-ray telescope
instrument_3_name = ART-S
instrument_3_characteristics = X-rayspectrometer
instrument_4_name = PHEBUS
instrument_4_characteristics = Gamma-burst detector
instrument_5_name = WATCH
instrument_5_characteristics = All-sky monitor
instrument_6_name = KONUS-B TOURNESOL
instrument_6_characteristics = Gamma-ray burst experimentslower|0.25em|
website = [http://hea.iki.rssi.ru/GRANAT/index.html hea.iki.rssi.ru/GRANAT/index.html] ru icon [http://hea.iki.rssi.ru/GRANAT/granat.html hea.iki.rssi.ru/GRANAT/granat.html] en icon
stats_ref = cite web |url=http://www.fas.org/spp/guide/russia/science/astronomy/granat.htm |publisher=The Federation of American Scientists |title=Granat X-ray and Gamma-ray Observatory |accessdate=2007-12-06] cite web |url=http://www.aero.org/capabilities/cords/pdfs/1999-reentry-chart.pdf |title=1999 Reentries |publisher=The Aerospace Corporation, Center for Orbital and Reentry Debris Studies |accessdate=2007-12-06|format=PDF] cite web |url=http://heasarc.gsfc.nasa.gov/docs/granat/granat_about.html |title=GRANAT |publisher=NASA HEASARC |accessdate=2007-12-05] ru icon N.G. Kuleshova, I.D. Tserenin, A.I. Sheikhet, fromNPO Lavochkin , [http://epizodsspace.testpilot.ru/bibl/ziv/1994/02/granat.html Orbital Astrophysical Observatory "Granat": Problems of Control] , "Zemlya i Vselennaya ", 1994, no. 2. Only four rows from a table of twenty used here.] Mandrou P, Jourdain E. et al. [http://articles.adsabs.harvard.edu/cgi-bin/nph-iarticle_query?1993A%26AS...97....1M&data_type=PDF_HIGH&whole_paper=YES&type=PRINTER&filetype=.pdf Overview of two-year observations with SIGMA on board GRANAT] , "A&A Supplement Series", 1993, no. 97.] Molkov, S.V., Grebenev, S.A., Pavlinsky, M.N., Sunyaev. "GRANAT/ART-P OBSERVATIONS OF GX3+1: TYPE I X-RAY BURST AND PERSISTENT EMISSION", Mar 1999. 4pp. [http://arxiv.org/abs/astro-ph/9903089v1 arXiv e-Print (astro-ph/9903089v1)] .] cite web |url=http://imagine.gsfc.nasa.gov/docs/sats_n_data/missions/granat.html |title=The Granat Satellite |publisher=NASA HEASARC Imagine the Universe! |accessdate=2007-12-05] cite web |url=http://hea.iki.rssi.ru/GRANAT/index.html |title=International Astrophysical Observatory "GRANAT" |publisher=IKI RAN |accessdate=2007-12-05]The International Astrophysical Observatory "GRANAT" (usually known as Granat; _ru. Гранат), was a Soviet (later
Russia n)space observatory developed in collaboration withFrance ,Denmark andBulgaria . It was launched on1 December 1989 aboard aProton rocket and placed in a highly eccentric four-dayorbit , of which three were devoted to observations. It operated for almost nine years.In September 1994, after nearly five years of directed observations, the gas supply for its attitude control was exhausted and the observatory was placed in a non-directed survey mode. Transmissions finally ceased on
27 November ,1998 .With seven different instruments onboard, Granat was designed to observe the universe at energies ranging from
X-ray togamma ray . Its main instrument, SIGMA, was capable of imaging both hard X-ray and soft gamma-ray sources. The PHEBUS instrument was meant to study gamma-ray bursts and other transient X-Ray sources. Other experiments such as ART-P were intended to image X-Ray sources in the 35 to 100 keV range. One instrument, WATCH, was designed to monitor the sky continuously and alert the other instruments to new or interesting X-Ray sources. The ART-S spectrometer covered the X-ray energy range while the KONUS-B and TOURNESOL experiments covered both the X-ray and gamma ray spectrum.Spacecraft
Granat was a three-axis-stabilized spacecraft and the last of the
Venera -class spacecraft produced by the Lavochkin Scientific Production Association. It was similar to the Astron observatory which was functional from 1983 to 1989; for this reason, the spacecraft was originally known as the Astron 2. It weighed 4.4 metric tons and carried almost 2.3 metric tons of international scientific instrumentation. Granat stood 6.5 m tall and had a total span of 8.5 m across itssolar array s. The power made available to the scientific instruments was approximately 400 W.Launch and orbit
The spacecraft was launched on
1 December 1989 aboard aProton rocket from theBaikonur Cosmodrome inKazakh SSR . It was placed in a highly eccentric 98-hour orbit with an initialapogee /perigee of 200,000 km/2,000 km respectively and an inclination of 51.5 degrees. This meant that solar and lunar perturbations would significantly increase the orbit's inclination while reducing its eccentricity, such that the orbit had become near-circular by the time Ganat completed its directed observations in September 1994. (By 1991, the perigee had increased to 20,000 km; by September 1994, the apogee/perigee was 59,025 km144,550 km at an inclination of 86.7 degrees.)Three days out of the four-day orbit were devoted to observations. After over nine years in orbit, the observatory finally reentered the Earth's atmosphere on
May 25 1999.Instrumentation
IGMA
The hard X-ray and low-energy gamma-ray SIGMA
telescope was a collaboration between CESR (Toulouse) and CEA (Saclay). It covered the energy range 35-1300 keV, with an effective area of 800 cm2 and a maximum sensitivity field of view of ~5°×5°. The maximumangular resolution was 15 arcmin. The energy resolution was 8% at 511 kev. Its imaging capabilities were derived from the association of a coded mask and a position sensitive detector based on the Anger camera principle.ART-P
The ART-P X-ray telescope was the responsibility of the
IKI inMoscow . The instrument covered the energy range 4 to 60 keV for imaging and 4 to 100 keV for spectroscopy and timing. There were four identical modules of the ART-P telescope, each consisting of a position sensitive multi-wire proportional counter (MWPC) together with a URA coded mask. Each module had an effective area of approximately 600 cm², producing afield of view of 1.8° by 1.8°. Theangular resolution was 5 arcmin; temporal and energy resolutions were 3.9 ms and 22% at 6 keV, respectively. The instrument achieved a sensitivity of 0.001 of theCrab nebula source (= 1 "mCrab") in an eight-hour exposure. The maximum time resolution was 4 ms.ART-S
The ART-S X-ray spectrometer, also built by the IKI, covered the energy range 3 to 100 keV. Its field of view was 2° by 2°. The instrument consisted of four detectors based on spectroscopic MWPCs, making an effective area of 2,400 cm² at 10 keV and 800 cm² at 100 keV. The time resolution was 200
microsecond s.PHEBUS
The PHEBUS experiment was designed by CESR (Toulouse) to record high energy transient events in the range 100 keV to 100 MeV. It consisted of two independent detectors and their associated
electronics . Each detector consisted of a bismuth germinate (BGO) crystal 78 mm indiameter by 120 mm thick, surrounded by a plastic anti-coincidence jacket. The two detectors were arranged on the spacecraft so as to observe 4πsteradian s. The burst mode was triggered when the count rate in the 0.1 to 1.5 MeV energy range exceeded the background level by 8sigma in either 0.25 or 1.0 seconds. There were 116 energy channels .WATCH
Starting in January 1990, four WATCH instruments, designed by the
Danish Space Research Institute , were in operation on the Granat observatory. The instruments could localize bright sources in the 6 to 180 keV range to within 0.5° using a Rotation ModulationCollimator . Taken together, the instruments' three fields of view covered approximately 75% of the sky. The energy resolution was 30% FWHM at 60 keV. During quiet periods, count rates in two energy bands (6 to 15 and 15 to 180 keV) were accumulated for 4, 8, or 16 seconds, depending on onboard computer memory availability. During a burst or transient event, count rates were accumulated with a time resolution of 1 second per 36 energy channels .KONUS-B
The KONUS-B instrument, designed by the
Ioffe Physico-Technical Institute in St. Petersburg, consisted of seven detectors distributed around the spacecraft that responded tophoton s of 10 keV to 8 MeV energy. They consisted of NaI(Tl) scintillator crystals 200 mm in diameter by 50 mm thick behind a Be entrance window. The side surfaces were protected by a 5 mm thick lead layer. The burst detection threshold was 5 × 10smallsup|-7 to 5 × 10smallsup|-8 ergs/cm², depending on the burst spectrum andrise time .Spectra were taken in two 31-channel pulse height analyzers (PHAs), of which the first eight were measured with 1/16 s time resolution and the remaining with variable time resolutions depending on the count rate. The range of resolutions covered 0.25 to 8 s.The KONUS-B instrument operated from 11 December 1989 until 20 February 1990. Over that period, the "on" time for the experiment was 27 days. Some 60 solar flares and 19 cosmic gamma-ray bursts were detected.
TOURNESOL
The French TOURNESOL instrument consisted of four proportional counters and two optical detectors. The proportional counters detected photons between 2 keV and 20 MeV in a 6° by 6° field of view. The visible detectors had a field of view of 5° by 5°. The instrument was designed to look for optical counterparts of high-energy burst sources, as well as performing
spectral analysis of the high-energy events.Science results
Over the initial four years of directed observations, Granat observed many galactic and extra-galactic X-ray sources with emphasis on the deep imaging and spectroscopy of the
galactic center , broad-band observations ofblack hole candidates, and X-ray novae. After 1994, the observatory was switched to survey mode and carried out a sensitive all-sky survey in the 40 to 200 keV energy band.Some of the highlights included:
* A very deep imaging (more than 5 million seconds duration) of the galactic center region.cite web |url=http://hea.iki.rssi.ru/GRANAT/sigma/sigma.html |title=SIGMA Telescope |publisher=IKI RAN |accessdate=2008-05-25]
* Discovery ofelectron -positron annihilation lines from the galacticmicroquasar 1E1740-294 and the X-ray Nova Muscae.
* Study of spectra and time variability of black hole candidates.
* Across eight years of observations, Granat discovered some twenty new X-ray sources, i.e. candidateblack hole s andneutron star s. Consequently, their designations begin with "GRS" meaning "GRANAT source". Examples areGRS 1915+105 (the firstmicroquasar discovered in our galaxy) andGRS 1124-683 .M.G. Revnivtsev, R.A. Sunyaev, M.R. Gilfanov, E.M. Churazov, A. Goldwurm, J. Paul, P. Mandrou and J. P. Roques " [http://www.springerlink.com/content/p461k5k336p11568 A hard X-ray sky survey with the SIGMA telescope of the GRANAT observatory] ", (2004) "Astronomy Letters ", vol. 30, p.527-533]Impact of the dissolution of the Soviet Union
After the end of the
Soviet Union , two problems arose for the project. The first was geopolitical in nature: the main spacecraft control center was located at theYevpatoria facility in theCrimea region. This control center was significant in the Soviet space program, being one of only two in the country equipped with a 70 mdish antenna . With the break up of the Union, the Crimea region, although mostly populated by ethnic Russians, found itself part of the newly independentUkraine and the center was put under Ukrainian national control, prompting new political hurdles.The main and most urgent problem, however, was in finding funds to support the continued operation of the spacecraft amid the spending crunch in post-Soviet Russia. The French space agency, having already contributed significantly to the project (both scientifically and financially), took upon itself to directly fund the continuing operations.
See also
* Astron, a previous space observatory based on the
Venera spacecraft.References
External links
* Official GRANAT Observatory homepages: [http://hea.iki.rssi.ru/GRANAT/granat.html English] [http://hea.iki.rssi.ru/GRANAT/index.html Russian]
* [http://www.astronautix.com/thisday/decber01.htm Encyclopedia Astronautica: On This Day]
* [http://gtn.sonoma.edu/public/resources/history/granat.php Global Telescope Network: Granat]
* [http://space.skyrocket.de/doc_sdat/granat.htm Gunter's Space Page: Granat (Astron 2)]
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