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Template:Infobox Spacecraft

Chandrayaan-1, (Template:Lang-sa) is India's first mission to the moon by India's national space agency Indian Space Research Organisation (ISRO). The unmanned lunar exploration mission includes a lunar orbiter and an impactor. The spacecraft was launched by a modified version of the PSLV XL on 22 October 2008 from Satish Dhawan Space Centre, Sriharikota, Andhra Pradesh at 06:23 IST (00:52 UTC). The vehicle was successfully inserted into lunar orbit on 8th November 2008. The estimated cost for the project is ₹386 crore (US$50 million).

The remote sensing satellite has a mass of 1,380 kilograms (3,042 lb) at launch and 675 kilograms (1,488 lb) at lunar orbit and carries high resolution remote sensing equipment for visible, near infrared, soft and hard X-ray frequencies. Over a two-year period, it is intended to survey the lunar surface to produce a complete map of its chemical characteristics and 3-dimensional topography. The polar regions are of special interest, as they might contain ice.. Also included in the mission, are the five ISRO payloads and six payloads from other international space agencies including NASA, ESA, and the Bulgarian Aerospace Agency, which are being carried free of cost.

Objectives

The stated scientific objectives of the mission are:

• To design, develop and launch and orbit a spacecraft around the Moon using Indian made launch vehicle.
• Conduct scientific experiments using instruments on-board the spacecraft which will yield the following results:

• To prepare a three-dimensional atlas (with high spatial and altitude resolution of 5-10 m) of both near and far side of the moon.
• To conduct chemical and mineralogical mapping of the entire lunar surface for distribution of mineral and chemical elements such as Magnesium, Aluminum, Silicon, Calcium, Iron and Titanium as well as high atomic number elements such as Radon, Uranium & Thorium with high spatial resolution.
• To impact a sub-satellite (Moon Impact Probe — MIP) on the surface on the Moon as a fore-runner to future soft landing missions.

Specifications

Mass

1380 kg at launch, 675 kg at lunar orbit, and 523 kg after releasing the impactor.

Dimensions

Cuboid in shape of approximately 1.5 m

Communications

X band, 0.7 m diameter parabolic antenna for payload data transmission. The Telemetry, Tracking & Command (TTC) communication operates in S band frequency.

Power

The spacecraft is mainly powered by its solar array, which includes one solar panel covering a total area of 2.15 x 1.8 m generating 700 W of power, which is stored in a 36 A·h Lithium-ion battery. The spacecraft uses a bipropellant integrated propulsion system to reach lunar orbit as well as orbit and altitude maintenance while orbiting the Moon.

Specific areas of study

• High-resolution mineralogical and chemical imaging of permanently shadowed north and south polar regions.
• Search for surface or sub-surface water-ice on the Moon, specially at lunar poles.
• Identification of chemical end members of lunar high land rocks.
• Chemical stratigraphy of lunar crust by remote sensing of central upland of large lunar craters, South Pole Aitken Region (SPAR) etc., where interior material may be expected.
• To map the height variation of the lunar surface features along the satellite track.
• Observation of X-ray spectrum greater than 10 keV and stereographic coverage of most of the Moon's surface with 5m resolution
• To provide new insights in understanding the Moon's origin and evolution.

Payloads

The scientific payload has a total mass of 90 kg and contains five Indian instruments and six foreign instruments.

Indian

• The Terrain Mapping Camera (TMC) is a CCD camera with 5 m resolution and a 40 km swath in the panchromatic band and will be used to produce a high-resolution map of the Moon. The aim of this instrument is to completely map the topography of the moon. The camera works in the visible region of the electromagnetic spectrum and captures black and white stereo images. When used in conjunction with data from Lunar Laser Ranging Instrument (LLRI), it can help in better understanding of the lunar gravitational field as well. TMC is built by ISRO's Space Applications Centre (SAC) of Ahmedabad TMC was successfully tested on 29 October 2008 through a set of commands issued from ISTRAC.

• The Hyper Spectral Imager (HySI) will perform mineralogical mapping in the 400-900 nm band with a spectral resolution of 15 nm and a spatial resolution of 80 m.

• The Lunar Laser Ranging Instrument (LLRI) will determine the surface topography.

• An X-ray fluorescence spectrometer (C1XS) covering 1- 10 keV with a ground resolution of 25 km and a Solar X-ray Monitor (XSM) to detect solar flux in the 1–10 keV range. C1XS will be used to map the abundance of Mg, Al, Si, Ca, Ti, and Fe at the surface, and will monitor the solar flux. This payload is a collaboration between Rutherford Appleton laboratory, U.K, ESA and ISRO.

• A High Energy X-ray/gamma ray spectrometer (HEX) for 30 – 200 keV measurements with ground resolution of 40 km, the HEX will measure U, Th, Pb, Rn degassing, and other radioactive elements

• The Moon Impact Probe (MIP) developed by the ISRO, is a small satellite that will be carried by Chandrayaan-1 and will be ejected once it reaches 100 km orbit around Moon, to impact on the Moon. MIP carries three more instruments, namely, a high resolution mass spectrometer, an S-Band altimeter and a video camera. The MIP also carries with it a picture of the Indian flag, its presence marking as only the fourth nation to place a flag on the Moon after the Soviet Union, United States and Japan.

Non-Indian

• SARA, The Sub-keV Atom Reflecting Analyser from the ESA will map composition using low energy neutral atoms sputtered from the surface.

• M3, the Moon Mineralogy Mapper from Brown University and JPL (funded by NASA) is an imaging spectrometer designed to map the surface mineral composition.

• SIR-2, A near infrared spectrometer from ESA, built at the Max Planck Institute for Solar System Research, Polish Academy of Science and University of Bergen, will also map the mineral composition using an infrared grating spectrometer. The instrument will be similar to that of the Smart-1 SIR.

• miniSAR, designed, built and tested for NASA by a large team that includes the Naval Air Warfare Center, Johns Hopkins University Applied Physics Laboratory, Sandia National Laboratories, Raytheon and Northrop Grumman; it is the active SAR system to search for lunar polar ice. The instrument will transmit right polarised radiation with a frequency of 2.5 GHz and will monitor the scattered left and right polarised radiation. The Fresnel reflectivity and the circular polarisation ratio (CPR) are the key parameters deduced from these measurements. Ice shows the Coherent Backscatter Opposition Effect which results in an enhancement of reflections and CPR, so that water content of the Moon polar region can be estimated.

• RADOM-7, Radiation Dose Monitor Experiment from the Bulgarian Academy of Sciences maps the radiation environment around the Moon.

Space flight

Chandrayaan-1 was launched on 22 October 2008 at 6.22 am IST from Satish Dhawan Space Centre using ISRO's 44.4 metre tall four-stage PSLV launch rocket. Chandrayaan and will take 15 days to reach the lunar orbit. ISRO's telemetry, tracking and command network (ISTRAC) at Peenya in Bangalore, will be tracking and controlling Chandrayaan-1 over the next two years of its life span.

Since its launch, Chandrayaan has performed several engine burns, moving it into the designated geostationary transfer orbit (GTO) around earth and has successfully communicated with base center. This GTO was characterized by a 22,860 km apogee by 255 km perigee and was the initial orbit from which the five orbit raising maneuvers will be performed.

Once in GTO, Chandrayaan's on-board motor will be fired to increase its orbit around the earth. The orbit will be raised five times till it reaches 1,019 km perigee and 386,194 km apogee from the Earth on 8 November. This orbit will take the spacecraft to the vicinity of the moon. The spacecraft will rotate for about five-and-a-half days before firing the engine to slow its velocity for moon's gravity to capture it. As the spacecraft approaches the moon, its speed will be reduced to enable the gravity of the moon to capture it into an elliptical orbit. A series of engine burns will then lower its orbit to its intended 100 km circular polar orbit. Following this, the Moon Impact Probe (MIP) will be ejected from Chandrayaan-1 and all the scientific instruments/payloads are commissioned.

Chandrayaan-1 completed four orbits around the Earth, on 23 October: "The health of the spacecraft is normal and (it is) doing fine. Spinning in elliptical orbit once in every 6 hours and 30 minutes, it has completed four orbits and is in the fifth orbit."

First orbit burn

The first orbit raising manoeuvre of Chandrayaan-1 spacecraft was performed at 09:00 hrs IST on 23 October 2008 when the spacecraft’s 440 Newton Liquid Engine was fired for about 18 minutes by commanding the spacecraft from Spacecraft Control Centre (SCC) at ISRO Telemetry, Tracking and Command Network (ISTRAC) at Peenya, Bangalore. With this engine firing, Chandrayaan-1’s apogee has been raised to 37,900 km, while its perigee has been raised a little, to 305 km. In this orbit, Chandrayaan-1 spacecraft takes about 11 hours to go round the Earth once.

Second orbit burn

The second orbit raising manoeuvre of Chandrayaan-1 spacecraft was carried out on 25 October 2008 at 05:48 IST when the spacecraft’s 440 Newton Liquid Engine was fired for about 16 minutes by commanding the spacecraft from Spacecraft Control Centre (SCC) at ISRO Telemetry, Tracking and Command Network (ISTRAC) at Peenya, Bangalore. With this engine firing, Chandrayaan-1’s apogee has been further raised to 74,715 km, while its perigee has been raised to 336 km, thus completing 20 percent of its journey. In this orbit, Chandrayaan-1 spacecraft takes about twenty-five and a half hours to go round the Earth once. This is the first time an Indian spacecraft has gone beyond the 36,000 km high geostationary orbit and reached an altitude more than twice that height.

Third orbit burn

The third orbit raising manoeuvre was initiated on 26 October 2008 at 07:08 IST. The Liquid Apogee Motor was fired for about nine and a half minutes. With this, Chandrayaan-1 entered a much higher elliptical orbit around the Earth. The apogee of this orbit lies at 164,600 km, instead of 199,277 km apogee as originally announced by the Indian Space Research Organisation (ISRO), while the perigee is at 348 km. In this orbit, Chandrayaan-1 takes about 73 hours to go round the Earth once.

Fourth orbit burn

The fourth orbit raising manoeuvre was carried out on October 29, 2008 at 07:38 IST. The spacecraft's liquid engine was fired for about three minutes, raising it to a more elliptical orbit whose apogee lies at 267,000 km while the perigee lies at 465 km. This makes its present orbit extends more than half the way to moon. In this orbit, the spacecraft takes about six days to go round the Earth once.

Operation of TMC

The Terrain Mapping camera (TMC) on board Chandrayaan-1 spacecraft was successfully operated on October 29, 2008 through a series of commands issued from the Spacecraft Control Centre of ISRO Telemetry, Tracking and Command Network (ISTRAC) at Bangalore. The second image showing Australia’s Southern Coast and taken from 70,000 km, was erroneously flipped horizontally when issued to the press.

Final orbit burn

The fifth and final orbit raising manoeuvre was carried out on November 4, 2008 04:56 am IST. The spacecraft’s liquid engine was fired for about two and a half minutes resulting in Chandrayaan-1 entering the Lunar Transfer Trajectory with an apogee of about 380,000 km.

Lunar orbit insertion

On 8th Nov 2008, Chandrayaan successfully completed the lunar orbit insertion operation. The operation was performed at 16:51 IST and lasted 817 seconds. This manoeuvre involved firing of the liquid engine when the spacecraft passed within 500km from the moon. The satellite has been placed in a elliptical orbit that passes over the polar regions of the moon, with 7502 km aposelene (point farthest away from the moon) and 504 km periselene (nearest to the moon). The orbital period is estimated to be around 11 hours. Chandrayaan-I would now be lowered gradually and placed in a circular orbit at a distance of 100 km from the lunar surface. With the successful completion of this operation, India became the fifth nation to put a vehicle in lunar orbit.

First Lunar Orbit Reduction

First Lunar Orbit Reduction Manoeuvre of Chandrayaan-I was carried out successfully on November 9, 2008 at 20:03 IST. During this, the 440 Newton liquid engine of the spacecraft was fired for about 57 seconds. This reduced the periselene from 504 km to 200 km while aposelene remained unchanged at 7,502 km. In this elliptical orbit, Chandrayaan-1 takes about ten and a half hours to circle the moon once.

Second Lunar Orbit Reduction

This manoeuvre, which resulted in steep decrease in Chandrayaan-1’s aposelene from 7,502 km to 255 km and its periselene from 200 km to 187 km, was carried out on November 10 at 21:58 IST. During this manoeuvre, the engine on board was fired for about 866 seconds. Chandrayaan-1 takes two hours and 16 minutes to go round the Moon once in this orbit.Two more manoeuvres are remaining before Chandrayaan-1 is placed in its final orbit around moon.

Team

The scientists considered instrumental to the success of the Chandrayaan-1 project are

• G. Madhavan Nair – Chairman, Indian Space Research Organisation
• T. K. Alex – Director, ISAC (ISRO Satellite Centre)
• Mylswamy Annadurai – Project director
• S. K. Shivkumar – Director - Telemetry, Tracking and Command Network.
• George Koshi –Mission Director
• Srinivasa Hegde – Mission Director
• M Y S Prasad – Associate Director of the Sriharikota Complex and Range Operations Director
• J N Goswami – Director of the Ahmedabad-based Physical Research Laboratory and Principal Scientific Investigator of Chandrayaan-1
• Narendra Bhandari – Head, ISRO`s Planetary Sciences and Exploration program

Chandrayaan-2

The ISRO is also planning a second version of Chandrayaan named Chandrayaan II. According to ISRO Chairman G. Madhavan Nair, "The Indian Space Research Organisation (ISRO) hopes to land a motorised rover on the Moon in 2009 or 2010, as a part of its second Chandrayaan mission. The rover will be designed to move on wheels on the lunar surface, pick up samples of soil or rocks, do in site chemical analysis and send the data to the mother-spacecraft Chandrayaan II, which will be orbiting above. Chandrayaan II will transmit the data to Earth."

NASA Lunar Outpost

According to Ben Bussey, senior staff scientist at the Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland, Chandrayaan's imagery will be used to decide the future Lunar outpost that NASA has recently announced. Bussey told SPACE.com, "India's Chandrayaan-1 lunar orbiter has a good shot at further identifying possible water ice-laden spots with a US-provided low-power imaging radar." Bussey advised — one of two US experiments on the Indian Moon probe. "The idea is that we find regions of interest with Chandrayaan-1 radar. We would investigate those using all the capabilities of the radar on NASA's Lunar Reconnaissance Orbiter", Bussey added, "a Moon probe to be launched late in 2008." (The LRO is now scheduled for launch 24 April 2009).

Reactions and statements

Reactions within India

• Indian President Pratibha Patil, Vice President of India Mohammad Hamid Ansarisent congratulatory messages to the space scientists for the successful launch.

• Prime Minister, Dr. Manmohan Singh sent congratulatory messages to the space scientists for the successful launch. and L. K. Advani, the leader of opposition congratulated the ISRO scientists on launch.

• The Chief Minister of Gujarat Narendra Modi, visited the ISRO centre in Ahmedabad and congratulated the Indian scientists on their achievement.

• The Chief Minister of Karnataka B. S. Yeddyurappa, visited the ISRO Indian Deep Space Network in Byalalu and congratulated Madhavan Nair and his team on their achievement.

International reaction

• NASA Administrator Michael D. Griffin congratulated Indian scientists: "Congratulations to our Indian colleagues on the successful launch of the Chandrayaan-1 spacecraft, which is carrying two NASA instruments. India's first lunar mission will provide important insight."

• US White House hailed India's maiden moon mission as "encouraging" and "exciting".

• Democratic Presidential candidate Barack Obama viewed the launch of Chandrayaan as a challenge to the United States. He stated "We are reminded just how urgently we must revitalise our space programme, if we are to remain the undisputed leader in space, science, and technology".

• ESA Director of Science and Robotic Exploration Prof. David Southwood said: "This is a new opportunity for Europe to expand its competence in lunar science while tightening the long-standing relationship with India - an ever stronger space power. Joining forces is becoming more and more key to future successes. We congratulate ISRO on the successful launch and we are eagerly looking forward to science to begin”.

• It is said that many Indian scientists working in NASA and ESA have expressed interest to work for ISRO, even at lower salaries.

India announces Solar mission "Aditya"

The Indian Space Research Organization (ISRO) has conceptually developed a Sun mission called 'Aditya'. ISRO Chairman G. Madhavan Nair announced that this mission was approved. "The success of Chandrayaan-1 has boosted the confidence of ISRO scientists to look beyond the moon" he added.

See also

• List of current and future lunar missions
• Exploration of the Moon

v t e Indian space programme
Department of Space (DoS)
Organisations	Indian Space Research Organisation (ISRO) Antrix Corporation Indian Institute of Space Science and Technology (IIST) Indian Institute of Remote Sensing (IIRS) National Atmospheric Research Laboratory (NARL) NewSpace India Limited (NSIL) Physical Research Laboratory (PRL) Development and Educational Communication Unit (DECU) Integrated Space Cell Defence Space Agency Indian National Space Promotion and Authorisation Centre (IN–SPACe)
Programmes	Bhaskara GAGAN GSAT INSAT IRNSS IRS Cartosat RISAT Rohini SROSS Chandrayaan Human Spaceflight Programme
Satellites	APPLE Aryabhata HAMSAT IMS-1 Megha-Tropiques NISAR SARAL South Asia Satellite Kalpana-1
Space observatories	Astrosat Aditya-L1 XPoSat AstroSat-2 (proposed)
Lunar and planetary spacecraft	Chandrayaan-1 Moon Impact Probe Chandrayaan-2 Vikram lander Pragyan rover Chandrayaan-3 Vikram lander Pragyan rover Chandrayaan-4 (upcoming) Lunar Polar Exploration Mission (proposed) Mars Orbiter Mission Mars Orbiter Mission 2 (proposed) Venus Orbiter Mission (proposed)
Human spaceflight	Indian human spaceflight programme SRE-1 SRE-II Gaganyaan CARE ISRO Space Station (proposed)
Launch vehicles	Active Orbital PSLV Launches GSLV Launches LVM3 SSLV Launches Suborbital Rohini ATV In development RLV Technology Demonstration Programme NGLV Retired SLV ASLV
Engines	Active CE-7.5 CE-20 Vikas In development SCE-200
Spaceports	Satish Dhawan Space Centre Thumba Equatorial Rocket Launching Station under development Kulasekharapatnam Spaceport
Research facilities	Vikram Sarabhai Space Centre U R Rao Satellite Centre Liquid Propulsion Systems Centre ISRO Propulsion Complex Space Applications Centre ISRO Inertial Systems Unit Laboratory for Electro-Optics Systems Human Space Flight Centre Development and Educational Communication Unit
Communications	Indian Deep Space Network Indian Space Science Data Centre ISRO Telemetry, Tracking and Command Network Master Control Facility National Remote Sensing Centre
Legislation and policy	Space Activities Bill
Private companies	Pixxel Skyroot Aerospace Satellize AgniKul Cosmos Dhruva Space Bellatrix Aerospace TeamIndus
Related	National Space Day SAGA-220 (supercomputer) Statio Shiv Shakti RESPOND
List of Indian satellites List of Satish Dhawan Space Centre launches List of ISRO missions List of ISRO chairpersons

References

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External links

Chandrayaan

• Official Homepage of Chandrayaan-1
• Where is Chandrayaan-1 Now?
• Chandrayaan-1 Mission Profile by NASA's Solar System Exploration
• Chandrayaan-1 page
• Chandrayaan website carrying latest stories on India's Moon Mission
• Men Behind Chandrayaan-1 talking on Chandrayaan

Payloads

• M3 fact sheet
• SPACE.com: U.S. radar on Chandrayaan-1?
• C1XS X-ray Spectrometer Instrument
• BBC, In pictures: India's moon mission - views from the streets
• Reuters: CHRONOLOGY - Five key dates in the race to the moon

• Current events
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• 2008 in India
• 2008 in science
• Indian space program
• Lunar spacecraft
• Unmanned spacecraft
• Indian lunar exploration program