Difference between revisions of "Chandrayaan-1"

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Chandrayaan 1 was an [[Indian Space Research Organization|Indian Space Research Organization (ISRO)]] mission to orbit the moon intended for two years, gathering scientific information and testing India's space capabilities.  Based upon the Kalpansat weather satellite, it had a 1.5 meter bus weighing approx. 523 kg.  Chandrayaan carried a 29kg Moon Impact Probe (MIP) and a 55kg scientific payload.  The spacecraft was successfully launched on a PSLV on October 22nd 2008.  It achieved lunar orbit insertion on the 8th of November and tranferred to a one hundred kilometer altitude circular orbit on the 12th of November.<ref>[http://www.isro.org/chandrayaan/htmls/mission_sequence.htm CHANDRAYAAN-1 Mission Sequence]</ref>  Chandrayaan-1 completed 3,000 orbits of the moon and sent more than 70,000 images to Earth.<ref>[http://isro.gov.in/pressrelease/scripts/pressreleasein.aspx?Jul17_2009 ISRO]</ref> The satellite detected x-rays from the moon produced by fluorescense stimulated by solar fares.<ref>[http://www.isro.gov.in/pressrelease/scripts/pressreleasein.aspx?Jan23_2009 ISRO]</ref>
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Aluminium, magnesium and silicon were revealed by the x-rays.<ref>[http://www.hindu.com/2009/01/24/stories/2009012454901100.htm THE HINDU]</ref>
  
Chandrayaan 1 is an [[Indian Space Research Organization|Indian Space Research Organization (ISRO)]] mission to orbit the moon for two years, gathering scientific information and testing India's space capabilitiesBased upon the Kalpansat weather satellite, it is a 1.5 meter bus weighing approx. 523 kg.  Chandrayaan carries a 29kg Moon Impact Probe (MIP) and a 55kg scientific payload.
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A power supply failure caused premature termination of the mission in August of 2009.  At that time Chandrayaan-1 was expected to crash into the moon in about 1000 days.   
  
 
==Instrumentation==
 
==Instrumentation==
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*Hyper Spectral Imager ([http://www.isro.org/chandrayaan/htmls/hysi.htm HySi]) for mineralogical mapping in the 400-900 nanometer band.  Spectral resolution of 15 nanometers.  Spacial resolution of 80 meters.
 
*Hyper Spectral Imager ([http://www.isro.org/chandrayaan/htmls/hysi.htm HySi]) for mineralogical mapping in the 400-900 nanometer band.  Spectral resolution of 15 nanometers.  Spacial resolution of 80 meters.
 
*Lunar Laser Ranging Instrument ([http://www.isro.org/chandrayaan/htmls/llri.htm LLRI]) for mapping lunar topography.
 
*Lunar Laser Ranging Instrument ([http://www.isro.org/chandrayaan/htmls/llri.htm LLRI]) for mapping lunar topography.
*High Energy X-ray/gamma ray spectromenter ([http://www.isro.org/chandrayaan/htmls/hex.htm HEX]).  30 - 250 keV range.  Designed to detect the decay products of [[Uranium]] and [[Thorium]].
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*High Energy X-ray/gamma ray spectrometer ([http://www.isro.org/chandrayaan/htmls/hex.htm HEX]).  30 - 250 keV range.  Designed to detect the decay products of [[Uranium]] and [[Thorium]].
 
*Moon Impact Probe ([http://www.isro.org/chandrayaan/htmls/mip.htm MIP]).  29 kg released from a 100km orbit.
 
*Moon Impact Probe ([http://www.isro.org/chandrayaan/htmls/mip.htm MIP]).  29 kg released from a 100km orbit.
 
Foreign
 
Foreign
*Imaging X-Ray Spectrometer ([http://www.isro.org/chandrayaan/htmls/cixs_esa.htm C1XS]).  1-10 keV range fluorescence.  Ground resolution of 10km.  Measures abundance of elemental Mg, Al, Si, Ca, Fe, and Ti on the lunar surface.  From [[ESA]].
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*Imaging X-Ray Spectrometer ([http://www.isro.org/chandrayaan/htmls/cixs_esa.htm C1XS]).  1-10 keV range fluorescence.  Ground resolution of 10km.  Measures abundance of elemental Mg, Al, Si, Ca, Fe, and Ti on the lunar surface.  Through [[ESA]].
*Near Infra Red spectrometer ([http://www.isro.org/chandrayaan/htmls/sir-2_esa.htm SIR-2])
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*Near Infra Red spectrometer ([http://www.isro.org/chandrayaan/htmls/sir-2_esa.htm SIR-2]). 0.93-2.4 μm range. 6nm spectral resolution.  Through [[ESA]].
*Sub KeV Atom Reflecting Analyser ([http://www.isro.org/chandrayaan/htmls/sara_esa.htm SARA])
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*Sub KeV Atom Reflecting Analyser ([http://www.isro.org/chandrayaan/htmls/sara_esa.htm SARA]). Through [[ESA]].
*Radiation Dose Monitor Experiment ([http://www.isro.org/chandrayaan/htmls/radom_bas.htm RADOM])
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*Radiation Dose Monitor Experiment ([http://www.isro.org/chandrayaan/htmls/radom_bas.htm RADOM]). From Bulgarian Academy of Sciences.
*Miniature Synthetic Aperture Radar ([http://www.isro.org/chandrayaan/htmls/minisar_nasa.htm MiniSAR])
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*Miniature Synthetic Aperture Radar ([http://www.isro.org/chandrayaan/htmls/minisar_nasa.htm MiniSAR]). Through [[NASA]].
*Moon Mineralogy Mapper ([http://www.isro.org/chandrayaan/htmls/mmm_nasa.htm M3])
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*Moon Mineralogy Mapper ([http://www.isro.org/chandrayaan/htmls/mmm_nasa.htm M3]). Through [[NASA]].
  
 
Lunar orbiting spacecraft.
 
Lunar orbiting spacecraft.
  
Reference: [http://www.moondaily.com/reports/India_Spacecraft_For_Moon_To_Take_Off_Next_Year_999.html scheduled for launch March 2008]
 
  
 
Sponsor: [[Indian Space Research Organization]]
 
Sponsor: [[Indian Space Research Organization]]
  
 
http://www.chandrayaan-1.com/
 
http://www.chandrayaan-1.com/
 
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== References ==
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<references/>
 
==External Links==
 
==External Links==
 
[http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=CHANDRYN1 NSSDC ID: CHANDRYN1]
 
[http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=CHANDRYN1 NSSDC ID: CHANDRYN1]

Latest revision as of 09:09, 22 July 2013

Chandrayaan 1 was an Indian Space Research Organization (ISRO) mission to orbit the moon intended for two years, gathering scientific information and testing India's space capabilities. Based upon the Kalpansat weather satellite, it had a 1.5 meter bus weighing approx. 523 kg. Chandrayaan carried a 29kg Moon Impact Probe (MIP) and a 55kg scientific payload. The spacecraft was successfully launched on a PSLV on October 22nd 2008. It achieved lunar orbit insertion on the 8th of November and tranferred to a one hundred kilometer altitude circular orbit on the 12th of November.[1] Chandrayaan-1 completed 3,000 orbits of the moon and sent more than 70,000 images to Earth.[2] The satellite detected x-rays from the moon produced by fluorescense stimulated by solar fares.[3] Aluminium, magnesium and silicon were revealed by the x-rays.[4]

A power supply failure caused premature termination of the mission in August of 2009. At that time Chandrayaan-1 was expected to crash into the moon in about 1000 days.

Instrumentation

The scientific payload consists of the following:

Indigenous

  • Terrain Mapping Camera (TMC) with a 5 meter resolution.
  • Hyper Spectral Imager (HySi) for mineralogical mapping in the 400-900 nanometer band. Spectral resolution of 15 nanometers. Spacial resolution of 80 meters.
  • Lunar Laser Ranging Instrument (LLRI) for mapping lunar topography.
  • High Energy X-ray/gamma ray spectrometer (HEX). 30 - 250 keV range. Designed to detect the decay products of Uranium and Thorium.
  • Moon Impact Probe (MIP). 29 kg released from a 100km orbit.

Foreign

  • Imaging X-Ray Spectrometer (C1XS). 1-10 keV range fluorescence. Ground resolution of 10km. Measures abundance of elemental Mg, Al, Si, Ca, Fe, and Ti on the lunar surface. Through ESA.
  • Near Infra Red spectrometer (SIR-2). 0.93-2.4 μm range. 6nm spectral resolution. Through ESA.
  • Sub KeV Atom Reflecting Analyser (SARA). Through ESA.
  • Radiation Dose Monitor Experiment (RADOM). From Bulgarian Academy of Sciences.
  • Miniature Synthetic Aperture Radar (MiniSAR). Through NASA.
  • Moon Mineralogy Mapper (M3). Through NASA.

Lunar orbiting spacecraft.


Sponsor: Indian Space Research Organization

http://www.chandrayaan-1.com/

References

External Links

NSSDC ID: CHANDRYN1