Chandrayaan programme explained

Chandrayaan programme
Country:India
Organisation:ISRO
Programme:y
Purpose:Exploration of the Moon
Cost:[1] [2]
Status:Active
Duration:2003–present[3]
Firstflight:Chandrayaan-1,
Lastflight:Chandrayaan-3,
Successes:2
Partialfailures:1 (Chandrayaan-2)
Launchsite:Satish Dhawan Space Centre
Native Name:Candrayāna Abhiyāna

The Chandrayaan programme (Sanskrit: 'Moon', 'Craft, Vehicle',)[4] [5] also known as the Indian Lunar Exploration Programme is an ongoing series of outer space missions by the Indian Space Research Organization (ISRO) for the exploration of the Moon. The program incorporates a lunar orbiter, an impactor, a soft lander and a rover spacecraft.

There have been three missions so far with a total of two orbiters, landers and rovers each. While the two orbiters were successful, the first lander and rover which were part of the Chandrayaan-2 mission, crashed on the surface. The second lander and rover mission Chandrayaan-3 successfully landed on the Moon on 23 August 2023, making India the first nation to successfully land a spacecraft in the lunar south pole region, and the fourth country to soft land on the Moon after the Soviet Union, the United States and China.

Background

The Indian space programme had begun with no intentions of undertaking sophisticated initiatives like human spaceflight and extraterrestrial missions during the initial days. It was only after ISRO developed the capabilities of creating satellites and orbital launch vehicles like PSLV, that the possibilities of India's first extraterrestrial exploration mission to the Moon were being explored in the early 2000s. The idea of a lunar scientific mission was first raised in 1999 during a meeting of the Indian Academy of Sciences (IAS) which was then carried forward by the Astronautical Society of India (ASI) in 2000.[6] The robotic exploration programme is intended as a precursor until Indian astronauts land on the Moon to carry forward further explorations, with the robotic programme planned to continue beyond crewed landings.[7]

History

First mission

Soon after the proposals by the Indian Academy of Sciences in 1999 and by the Astronautical Society of India in 2000, a National Lunar Mission Task Force (NLMTF) was set up which constituted ISRO and leading Indian scientists and technologists across the nation to conduct the feasibility study. The study report was then reviewed by a peer group of 100 scientists from various fields.[6] The recommendations put forward were as follows:

On 15 August 2003, then prime minister Atal Bihari Vajpayee announced the project which was estimated to cost .[8] [9] In November of the same year, the government approved the Chandrayaan project which would consist of an orbiter that would conduct mineralogical and chemical mapping of the surface.[10] During the assembly of the orbiter only mission, then president A.P.J. Abdul Kalam visited the ISRO office and advised that orbiter alone would not suffice and proposed of another instrument that could be dropped on the surface. Following the advice, the scientists made design changes to the project and included an impact probe named Moon Impact Probe (MIP).[11] The MIP was planned to be dropped from altitude and would acquire close-range images of the surface, collect telemetry data for future soft landing missions and measure the constituents of the lunar atmosphere.[12]

The project required India set up its deep space network and the entire project cost .[13] On 22 October 2008, Chandrayaan-1 was successfully launched aboard the PSLV rocket.[14] After earth bound maneuvers and trans lunar injection, Chandrayaan-1 entered the lunar orbit on 10 November, making India the fifth nation to orbit Moon.[15] Four days later, on 14 November, the Moon Impact Probe (MIP) impacted near the Shackleton crater, in the lunar south pole, this made India the fifth country to reach the lunar surface and the first to reach lunar south pole.[16] The MIP made the most significant discovery by confirming the existence of water on Moon. This discovery was not made public until NASA's Moon Mineralogy Mapper payload onboard Chandrayaan-1 orbiter confirmed the same on 24 September 2009.[17] The mission was intended to last two years, but the contact with the orbiter was lost on 28 August 2009, which officially ended the mission.[18]

Second mission and its problems

See main article: Chandrayaan 2. After the success of the Chandrayaan-1 mission, a follow-up mission worth was already being planned and was targeted for a launch in 2012.[19] [20] Abdul Kalam suggested for collaboration between India and the United States for the Chandrayaan-2 mission, which would soft land near the lunar south pole and perform robotic penetrations into the surface to study more about the lunar water.[21] However, an agreement had already been signed in the year 2007 by ISRO and Roscosmos, the Russian federal space agency, for the second lunar mission under the Chandrayaan-2 project.[22]

Russian collaboration and back out

According to the agreement, ISRO had the responsibility of launching, orbiting, and deployment of the Pragyan rover while Russia's Roscosmos would provide the lander.[23] The design of the spacecraft by ISRO was completed in 2009,[24] the payloads were also finalized and the launch was targeted for 2013.[25] The project then hit a roadblock when Russia delayed its development of the lander due to failure of its Fobos-Grunt mission which revealed technical issues in the similar parts that would be used in the lunar lander.[26] Russia then proposed a few changes which required ISRO to decrease mass of its rover due to increase in the mass of the lander. A delayed timeline and the Russian request to accept the risk meant that India had to undertake the entire project independently.[27] With Mars transfer window arriving in the 2013, ISRO repurposed the unused Chandrayaan-2 orbiter hardware for the Mars Orbiter Mission.[28]

Indigenous development of the lander

With the Russian agreement falling apart, India was left alone and now had complete responsibility for the project including the development of lander technology. For which, ISRO created a mimic of Chandrayaan-2's lunar landing site in Challakere with craters that measured in diameter and were deep. This site was used for testing the electronics of the lander and rover. The project was now estimated to cost and was expected to launch in the first quarter of 2018 on GSLV MK-II.[29] [30] Later in 2017, India signed a deal with Japan's JAXA to conduct a feasibility study for another joint lunar roving mission named Lunar Polar Exploration Mission (LUPEX). For which a technical demonstration of soft landing was required to be conducted with Chandrayaan-2 mission.[31] [32]

In 2018, the mission faced its second delay after ISRO made design changes for the spacecraft as well as changes in its maneuver where the lander would orbit the Moon to assess the performance of various systems before performing landing. This was contrary to the previous plan where the lander would directly descend after arriving in the designated orbit. A fifth engine was added to the lander, the diameter of the landing legs was increased, two additional propellant tanks were added and additional support systems for power, structure, and thermal control were also provided. This significantly increased the mass of the composite and required ISRO to upgrade the GSLV Mk-II vehicle, but the scientists felt it would be risky to fly the test flight of the uprated Mk-II with Chandrayaan-2 payload, hence a more capable and already flown LVM3 vehicle was chosen.[33] [34]

During a landing test in February 2019, the lander suffered minor injuries in two of its legs due to a faulty orientation for the test, and the launch was then targeted for the second quarter of the year.[35] Final cost for the Chandrayaan-2 project was around .

Flight

On 22 July 2019, Chandrayaan-2 was finally launched on LVM3 putting an end to several roadblocks that hit the mission during the decade.[36] After orbit-raising maneuvers and finally the trans lunar injection, Chandrayaan-2 attained the lunar Orbit on 20 August. On 6 September 2019, during the descent to the surface, the contact with the lander was lost after it crash-landed. According to the chairman K. Sivan, the lander was operating as expected until it was just above the surface when it started deviating from the intended trajectory.[37] Four years later, ISRO chairman S. Somanath revealed three major reasons for the failure, the presence of five engines that generated a higher thrust which made the errors accumulate over time, the lander being unable to turn very fast because it was not expected to perform at such a high pace turning and the final reason was the small 500x500 m landing site chosen that left the lander with less room for error.[38]

Third Mission

See main article: Chandrayaan-3.

Development

Two months after the failure of Chandrayaan-2, the third mission was proposed with the lander and rover being the primary components of the mission, unlike previously where the orbiter carried a greater scientific payload. The Chandrayaan-3 would be a re-attempt to demonstrate the landing capabilities needed for the LUPEX mission, a proposed partnership with Japan that was planned for 2025-26 time frame.[39] ISRO sought from the government as initial funding for the Chandrayaan-3 project that included a propulsion module, a lander, and a rover. It was expected to launch a year later in November 2020.[40] [41] On 19 December 2019, P Veeramuthuvel was appointed as the director of the mission.[42] The work on the project was underway come January 2020 and K. Sivan revealed that the launch may happen in early 2021 with the total cost of the project being .[43] Later in March, the government confirmed that the launch could take place in the first half of 2021.[44] The earlier addition of the fifth engine in the Chandrayaan-2's lander that caused the additional thrust was now removed from the design of Chandrayaan-3.[45] Like Chandrayaan-2, the testing for the lander was to be conducted in Challakere where ISRO's previously built Moon like site with craters had deteriorated. A total of was spent on recreating the site with craters of similar dimensions (wide and deep).[46]

The launch which was planned for early 2021, was then delayed to 2022 due to COVID-19 pandemic in India.[47] The propulsion module which was ready before the pandemic had begun its testing, following which the lander and rover tests were to be conducted but the pandemic delayed the project and pushed its tentative launch date to the third quarter of 2022.[48] Few more changes with strengthening the landing legs, improvisation in instruments, a failure-proof configuration and additional testing meant that the new schedule for the launch was moved to second quarter of 2023.[49]

In May 2023, the spacecraft was in its final stage of the assembly of payloads at the U R Rao Satellite Centre with the launch targeted for the first or second week of July.[50]

Successful soft landing

On 14 July 2023, Chandrayaan-3 was successfully launched on LVM3 and was inserted in the lunar sphere of gravitational influence on 5 August 2023.[51] On 23 August 2023, the lander Vikram successfully soft landed in the lunar south pole region, achieving humanity's first soft landing in the region and making India the fourth country to soft land on the Moon after Soviet Union, United States and China.[52] Soon after the touchdown, the rover Pragyan got down of the ramp and drove making India only the third country to operate a robotic rover on the Moon after Soviet Union and China.[53]

Spacecrafts

The Chandrayaan programme consists of robotic explorers such as the Moon Impact Probe (MIP) an impactor, Chandrayaan-1 and 2 the orbiters, Vikram lander and Pragyaan rover.

Impactor: Moon Impact Probe

The Moon Impact Probe (MIP) weighed 350NaN0 with 25 minutes of expected operating duration. It carried a Radar altimeter to record the altitude data which would be used in qualifying technologies for future soft landing missions, a Video imaging system to acquire close-range pictures of the lunar surface, and a Mass spectrometer to study the tenuous atmosphere of the Moon.[54] On 12 November 2008, the MIP separated from the orbiter and impacted near the lunar south pole's Shackleton crater.[16] While descending, the probe's Chandra's Altitudinal Composition Explorer (CHACE) instrument detected the presence of water.[17]

Orbiters

Chandrayaan-1

Chandrayaan-1 launched on 22 October 2008 aboard PSLV-XL was a solar-powered cuboid orbiter that weighed along with the Moon Impact Probe. It was powered by a single-sided solar array during the day and was supported by lithium-ion batteries during night time. The attitude of the spacecraft was controlled by three-axis stabilization method using two star sensors, gyroscopes and four reaction wheels. The scientific data transmission was conducted in X band frequencies while telemetry tracking was done in S band frequencies. To store these data, two solid-state recorders (SSR) were used with SSR-1 carrying 32 GB dedicated capacity for scientific data while SSR-2 carrying 8 GB capacity for the rest of the scientific data and attitude information. Moon Mineralogy Mapper, an American scientific payload onboard carried its own SSR with 10 GB capacity.[55]

The orbiter-impactor composite entered the lunar sphere of gravitational influence on 8 November 2008 and after orbital reduction maneuvers, it attained an elliptical polar orbit of, upon which, two of the eleven scientific payloads, the Terrain Mapping Camera (TMC) which had a spatial resolution of [56] and Radiation Dose Monitor (RADOM) were switched on for operations.[15] [57] Post deployment of MIP, rest of the nine scientific instruments began operations.[58]

On 25 November 2008, just a couple of weeks after entering lunar orbit, the orbiter's temperature rose to after receiving equal amounts of heat from the sun as well as the moon (due to its Albedo). Efforts such as rotating the craft by 20 degrees, shutting down the mission computers, and increasing its orbit to were made to bring its temperature down and to avoid damaging the onboard instruments.[59] A year later, the overheating problem was responsible for ending the mission as it damaged the star sensors which maintained the orientation of craft. The orientation was then barely maintained with the help of gyroscopes as a temporary measure before losing contact on 28 August 2009, which ended the mission a year before its intended duration. However, the mission was analyzed to be 95% successful with its intended operations.[60] [61]

Chandrayaan-2

Chandrayaan-2 was the second mission under the programme and it included an orbiter, lander, and rover. After the failure of the Chandrayaan-1 orbiter, the Chandrayaan-2 orbiter enabled ISRO to conduct science with modern cameras and instruments. The primary objectives of this mission were to soft land on the surface and operate a rover, to study the lunar surface, its exosphere, minerals and water ice.[62] [63] While the Chandrayaan-2 composite (orbiter, lander and rover) weighed in total, the orbiter alone weighed . It carried eight scientific instruments with two of the instruments; the Terrain Mapping Camera 2 (TMC-2) and Chandrayaan-2 Atmospheric Compositional Explorer 2 (ChACE-2) being upgraded versions of Terrain Mapping camera (TMC) and Chandra's Atmospheric Compositional Explorer (CHACE) onboard Chandrayaan-1 orbiter and Moon Impact Probe respectively.[64]

The Chandrayaan-2 was launched on 14 July 2019[36] and it attained the lunar orbit on 20 August 2019.[65] After five orbital reduction manoeuvres, the composite attained a near circular orbit of,[66] which was followed by the separation of Vikram on 2 September 2019.[67] The crash landing of Vikram left the orbiter as a sole successful component of the mission with its new mission duration being extended from one year to seven and a half years. The Orbiter High-Resolution Camera (OHRC) during the time remained the most advanced camera in the lunar orbit with a spatial resolution of, four times higher than Chandrayaan-1 orbiter's resolution. The orbiter is currently studying the lava tubes and caves which were previously spotted by the Chandrayaan-1 orbiter.[68] [69]

Chandrayaan-3

With the Chandrayaan-2 orbiter already operational and the need of demonstrating landing capabilities, Chandraayn-3's orbiter carried only a single payload and for its main purpose served as a propulsion module for carrying Vikram to the Moon. The Spectro-polarimetry of Habitable Planet Earth (SHAPE) payload was developed to study Earth's atmosphere from distance and it would aid in the study of Exoplanets' atmospheres, which employs a similar technique.[70] Chandrayaan-3 was launched on 14 July 2023 aboard LVM3[71] and on 16 August 2023, the composite attained a final lunar orbit of .[72] A day later, the orbiter separated from the lander and began its independent operations with SHAPE.[73] The orbiter also known as Propulsion Module (PM) of Chandrayaan-3, was moved from its orbit around Moon to an orbit around Earth.[74] While the initial plan was to operate SHAPE for about three months during the mission life of orbiter, the precise lower earth orbit injection by LVM3 and optimal earth / lunar burn maneuvers, resulted in the availability of over of fuel in the orbiter after over one month of operations in the lunar orbit. It was decided to use the available fuel in it to derive additional information for future lunar missions and demonstrate the mission operation strategies for a sample return mission. In order to continue SHAPE payload for Earth observation, it was decided to re-orbit the orbiter to a suitable Earth orbit. This mission plan was worked out considering the collision avoidance such as preventing the orbiter from crashing on to the Moon's surface or entering into the Earth's GEO belt at 36000 km and orbits below that. Considering the estimated fuel availability and the safety to GEO spacecraft, the optimal Earth return trajectory was designed for October 2023 .

Landers

Vikram (Chandrayaan-2)

The lander was named Vikram and it weighed including the rover named Pragyan that it housed inside.[75] Vikram had eight thrusters for attitude control and five liquid main engines that were derived from ISRO's liquid apogee motors[76] and it was designed to safely land on slopes up to 12°.[77] It carried four payloads to study lunar seismic activity, measure the lunar sub-surface temperatures and to measure density and variation of lunar surface plasma (using a langmuir probe).

After two de-orbiting manoeuvers, Vikram attained a final orbit of after which the powered descent phase began on 7 September 2019. During the descent and landing, the onboard computers had complete control over the lander.[78] The initial descent and critical braking procedures went as intended but upon reaching altitude, the lander began deviating and lost its contact with the mission control after subsequent crash landing.[79] Upon analysis, it was found that the main engines had higher thrust than normal which led to errors being accumulated over time and this meant the lander could not change its attitude at such a fast pace due to safety constraints in the onboard computer that had a limit on the maximum rate with which it can change its attitude. Coarse throttling of main engines, error in computing the remaining time in the mission and a small landing site of 500 x 500 m were the other reasons attributed to the failure.[80] [81]

Vikram (Chandrayaan-3)

Chandrayaan-3's Vikram lander had underwent major changes after its predecessor crash landed.[82] There were now four instead of five main engines that provided of thrust and had slew rate changing capabilities, unlike previously when the centrally mounted fifth engine lacked the capability. This enabled the lander to control the attitude and thrust during all phases of descent. The attitude correction rate was also increased from Chandrayaan-2's 10°/s to 25°/s with Chandrayaan-3. An additional laser Doppler velocimeter (LDV) was equipped that allowed attitude measurements in all three directions.[83] The impact legs were made larger and stronger relative to Chandrayaan-2. The OHRC onboard Chandrayaan-2 enabled the mission to have an expanded landing site with landing area. The lander underwent several tests including a helicopter drop test that helped in improving the structural rigidity. In the event of a failure during descent and landing, multiple contingency systems were added to improve the survivability chances of the lander. The landing region was unchanged from the previous mission,[84] with the area of new site being expanded to from previous . Other major changes in the new 'failure-based' approach included the removal of the fifth engine, an increase in fuel capacity, an increase in vertical velocity component, and other software changes.[85]

On 23 August 2023, the lander that had previously reduced its orbit to NaN25x134 via de-orbit burns,[86] began descending using all of its four engines after it reached near its Periselene at . Roughly after eleven minutes of powered descent, the lander maintained the altitude of for 10 seconds before changing its attitude to vertical position for the final vertical descent phase. It then used two of its four engines to slow its descent to and then hovered twice for about thirty seconds before touching down on the chosen optimal spot.[87]

On 3 September 2023, before putting Vikram to sleep mode, ISRO conducted a hop on the lunar surface by firing its engines that moved it vertically as well as laterally before touching down again. The hop experiment proved to be the most significant test conducted by ISRO as the data would aid in future sample return missions under the programme. ISRO also attained a unique record of conducting its first vertical take-off and landing on an extraterrestrial surface before Earth; that was planned to be conducted under its Reusable technology demonstration programme.[88] [89] [90]

Rovers

Pragyan (Chandrayaan-2)

The Rover named Pragyan carried two scientific payloads that were to be used in determining the elemental composition and its abundance near the landing site.[64] It was designed to travel at a speed of and could drive up to in its lifetime. Both the lander and rover were expected to operate for one lunar day as they lacked any Radioisotope heater unit (RHU) and were entirely dependent on solar power for operations.[91] The Chandrayaan-2's Pragyaan was precluded from its operations after the crash landing of its carrier Vikram.

Pragyan (Chandrayaan-3)

Unlike the lander, there were no changes made in the Pragyan rover except for switching ISRO's logo with Emblem of India on the left and right wheels respectively that would imprint them on the regolith. The scientific objectives too remained unchanged since the previous mission. On 23 August 2023, a few hours after the soft landing, the ramp was deployed for the Pragyan to touch down and begin its operations on the surface.[92] A few days later, the instruments were turned on and the rover moved on the surface, thus achieving the primary goal of the mission.[93] On 3 September 2023, with the lunar night approaching, the rover was shut down and put into 'sleep mode'.

Science

The Chandrayaan programme has been vastly regarded as successful, especially with the discovery of lunar water.[17] It continues to provide scientific data and high-resolution imagery thanks to Orbiter High Resolution Camera (OHRC) which is the most advanced lunar camera so far with spatial resolution and it is currently operational onboard Chandrayaan-2's orbiter.[68] Chandrayaan-1 lost its contact a year before its intended duration, however, the Chandrayaan-2's orbiter is carrying forward the research from the orbit and is expected to operate until 2026.[69] The first soft landing and on-site science mission of Chandrayaan-3 conducted the first experiments in the lunar south pole region thus contributing to the understanding of the region which holds the potential for a future crewed lunar base.[94]

Discovery of water on the Moon

The presence of water on the Moon has always been a matter of intense debate since the last century. The first study for the lunar water was conducted in 1961 and it revealed that the polar regions, which have a high density of cold traps, have more probability of lunar water ice than the equatorial regions.[95] The samples returned from the equatorial region during Apollo programme failed to provide definitive evidence, reinforcing the need for research on the lunar poles. Since there hadn't been any missions to the lunar poles and since the poles had been speculated to harbour the water ice, Moon Impact Probe's impact site was chosen in the lunar south pole to search for firm evidence of the same in the lunar atmosphere.[6]

The Chandra's Altitudinal Composition (ChACE) was one of the three scientific instruments on board the Chandrayaan-1's Moon Impact Probe (MIP). It was a mass spectrometer that was developed to study the composition of the tenuous lunar exosphere through mass spectroscopy. On 12 November 2008, the MIP separated from the Chandrayaan-1 orbiter and began its descent to the surface, during which it detected the clear presence of molecules with atomic mass unit 18 i.e., water. The ionized water molecules and their fragments (such as and ions) were detected by ChACE. Three months later, the Moon Mineralogy Mapper (M3) an imaging spectrometer on board the Chandrayaan-1 orbiter also detected the presence of water. While observing the reflectance spectra of the Moon, it observed the absorption features of the water ice which are in the 1.0-2.5 μm wavelength region. The shadowed regions that received the reflected light were chosen for the study with water ice being found near the polar region.[96]

The ChACE profile indicates a steady rise in the concentration of water molecules starting from 20 degrees south to the poles, however, it peaks at 60-70 degrees south and then declines. Overlaying the M3 profile which begins at 43.1 degrees south depicts a complementary nature of the recordings, confirming the double evidence of lunar water near the south pole. However, the detection of water in every spectrum of ChACE coupled with the fact that it does not indicate either a steady rise or decline or a constant level in its profile, could possibly be due to contamination of water from Earth. Adding to the concerns was the M3's profile which showed a steady increase towards the south pole, unlike ChACE which saw a decline beyond 70 degrees south.[97] But according to Indian mathematician Ramaiyengar Sridharan, if the water ice acts as a source due to sublimation, which would be a strong function of temperature in the prevailing ultra high vacuum condition, then, in the absence of fresh sources during the measurement phase, the increase/decrease in the concentration measured by ChACE should be at the cost of what M3 has detected in the form of ice; which means, the peak measurement recorded may be due to the presence of many water ice sources and the decline may be due to fewer such sources and while M3 mapped the water ice sources on the surface the MIP detected the vapour generated from these sources, thus complementing each other.[98]

Despite the Chandrayaan-1 mission ending a year earlier than the intended duration of two years, the data recorded from the instruments onboard over 310 days were very useful even a decade later. In 2018, the data obtained from the M3 was used by the scientist at University of Hawaiʻi, Dr. Shuai Li and his team to research lunar water in the dark craters of the poles. Since the data was patchy and hard for them to work with the dark craters, they used the traces of sunlight that had bounced off crater walls and analyzed the spectral data to find places where the three specific wavelengths (in the range of 1.0-2.5 μm) of near-infrared light were absorbed that indicated the presence of water ice. They conducted thorough statistical analysis to ensure that their findings were not influenced by random anomalies or errors in the instruments. "I consider this to be the most convincing evidence that you actually do have true water ice at the uppermost surface — what we call the optical surface — of the Moon", Li said on the results.[99] [100]

Surface features

See also: Selenography. Mapping and Studying the lunar surface features were the primary scientific objectives of Chandrayaan-1. The first images of the surface were acquired by the Terrain Mapping Camera (TMC) onboard the mission's orbiter. The CMOS camera with resolution and swath in the Panchromatic band, was activated on 29 October 2008 (within the earth's orbit) and it had captured over 70,000 images during its 3,000 orbits around the Moon.[101] While the other scientific missions at the time usually had a resolution, many of TMC's images had a sharp resolution of thus enabling the production of a detailed map of the Moon.[102]

During mapping Rilles and Lava tubes on the lunar surface, the TMC discovered a large lava tube near the equator (specifically in the Oceanus Procellarum, to the north of the rille named Rima Galilaei above the lunar equator). The tube measured about in length and in width. The lunar lava tubes are considered as potential habitation sites for future crewed outposts since they act as natural protectors from cosmic radiation, solar radiation, meteorites, micrometeorites, and ejecta from impacts. They are also insulated from the extreme temperature variations on the lunar surface.[103]

Summary

List of missions

Landing

Mission
Launch Date
Launch Vehicle
Orbital Insertion DateLanding DateReturn Date Status
Main
Mission
Extended
Mission
Expected Mission DurationTotal Mission DurationNotes
Orbiter and impactor
Chandrayaan-122 October 2008PSLV-XL8 November 20082 years310 daysFirst Indian Lunar mission; discovered water on the Moon.
Soft landers and rovers
Chandrayaan-222 July 2019LVM320 August 20197.5 years elapsedFirst Indian Lunar lander and rover mission; lander crashed.
Chandrayaan-314 July 20235 August 202312 days12 daysFirst Indian extraterrestrial soft landing; humanity's first soft landing near lunar south pole.
Onsite sampling
LUPEXTBD 2026–28H3TBDTBDTBDTBD6 monthsTBDCollaborative mission with JAXA. Precursor to Chandrayaan-4.[104]
Sample return
Chandrayaan-42028LVM3
PSLV
TBDTBD-TBDTBD14 daysTBDSpace docking experiment in lunar orbit, soft landing and spacecraft launch from Lunar surface.[105] Planned sample return mission from Lunar surface.[106]

Named sites

MissionCraftLanding DateNameRegionCoordinates
Chandrayaan-1Moon Impact ProbeJawahar PointLunar south polar region
Chandrayaan-2VikramTiranga Point
Chandrayaan-3Vikram23 August 2023Statio Shiv Shakti-69.3676°N 32.3481°W
Pragyan

Future

On-site sampling and Sample return

With successful demonstration in soft landing and roving, the programme then moved into its next phase where a rover with greater scientific payload is to be sent to conduct on-site sample analysis. The mission named Lunar Polar Exploration Mission (LUPEX), is suggested to be launched in the time frame of 2026–28.[107] [108] India is collaborating with Japan in this mission. It will be a lander-rover mission near lunar pole to perform on-site sampling and analysis of collected lunar material[109] [110] and demonstrate lunar night survival technologies.[111]

Chandrayaan-4 is a planned lunar sample-return mission of the Indian Space Research Organisation (ISRO) and will be the fourth mission in its Chandrayaan programme. It consists of four modules namely Transfer module (TM), Lander module (LM), Ascender module (AM) and Reentry Module (RM). The planned mission life is 1 lunar day, and the landing site is near to Statio Shiv Shakti, the landing site of Chandrayaan-3's Lander.

On August 20, 2024, ISRO Chairman S Somnath announced plans for Chandrayaan-5.[112]

Long duration exploration

Building upon this foundation subsequent missions, such as Chandrayaan-5 and Chandrayaan-6, will explore long-term presence on the Moon, including the potential development of habitats . Each flight is designed to progressively expand India's capabilities in lunar exploration, potentially with the co-operation of all Artemis accords signatories.[113] In an Interview ISRO chairman S Somanath has informed that India will continue sending lunar missions until an Indeginious manned mission, with the program also continuing after that.[114]

See also

Notes and References

  1. News: Chandrayaan-2 mission cheaper than Hollywood film Interstellar – Times of India . The Times of India . 20 February 2018 . 2019-08-27 . 26 July 2019 . https://web.archive.org/web/20190726132437/https://timesofindia.indiatimes.com/home/science/chandrayaan-2-mission-cheaper-than-hollywood-film-interstellar/articleshow/62990361.cms . live.
  2. Web site: Question No. 2222: Status of Chandrayaan Programme . https://web.archive.org/web/20170803171227/http://164.100.158.235/question/annex/243/Au2222.pdf . 2017-08-03 . dead.
  3. Web site: 2003 – An Eventful Year for ISRO . www.isro.gov.in . 24 July 2019 . 24 July 2019 . https://web.archive.org/web/20190724181521/https://www.isro.gov.in/update/29-dec-2003/2003-eventful-year-isro . dead.
  4. Web site: Chandrayaan-2 FAQ . 24 August 2019 . The name Chandrayaan means "Chandra-Moon, Yaan-Vehicle", – in Indian languages (Sanskrit and Hindi), – the lunar spacecraft . 29 June 2019 . https://web.archive.org/web/20190629122319/https://www.isro.gov.in/chandrayaan2-faq . dead.
  5. [Monier Monier-Williams]
  6. Web site: Datta . Jayati . Chakravarty . S.C. . May 2004 . Chandrayaan-1: India's first scientific mission to the Moon. . dead . https://web.archive.org/web/20140802062110/http://shiksha.isro.gov.in/pdf/books/1.pdf . 1 September 2023 . 2 August 2014 . ISRO.
  7. News: 17 April 2024 . ISRO to continue lunar mission until an Indian lands on Moon: S Somanath . live . https://web.archive.org/web/20240420152009/https://indianexpress.com/article/india/isro-lunar-mission-indian-lands-moon-s-somanath-9275832/ . 20 April 2024 . 20 April 2024 . . .
  8. News: 2003-08-16 . Spacecraft to place 525-kg satellite in polar orbit . The Times of India . 2023-09-01 . 0971-8257 . 1 September 2023 . https://web.archive.org/web/20230901112932/https://timesofindia.indiatimes.com/india/spacecraft-to-place-525-kg-satellite-in-polar-orbit/articleshow/133493.cms . live .
  9. News: 2003-04-04 . India 'on course' for the Moon . en-GB . 2023-09-01 . 21 January 2019 . https://web.archive.org/web/20190121160746/http://news.bbc.co.uk/2/hi/south_asia/2917271.stm . live .
  10. Web site: October 2008 . Indian space programme . ISRO . 3 September 2023 . 5 December 2023 . https://web.archive.org/web/20231205062051/https://www.isro.gov.in/media_isro/pdf/ResourcesPdf/SpaceIndia/publication(6).pdf . live .
  11. Web site: When A Tip By APJ Abdul Kalam Helped India's 1st Moon Mission Chandrayaan-1 . 2023-09-01 . NDTV.com . 1 September 2023 . https://web.archive.org/web/20230901091836/https://www.ndtv.com/india-news/chandrayaan-3-when-a-tip-by-apj-abdul-kalam-helped-indias-1st-moon-mission-chandrayaan-1-4321874 . live .
  12. Web site: Moon Impact Probe (MIP) . 24 October 2008 . ISRO . https://web.archive.org/web/20081026095631/http://www.isro.org/chandrayaan/htmls/mip.htm . 26 October 2008 . dead.
  13. Web site: 2015-10-17 . India's Moon Mission » pa . 2023-09-01 . https://web.archive.org/web/20151017155347/http://www.politicalaffairs.net/india-s-moon-mission/ . 17 October 2015.
  14. Web site: 2009-08-01 . India Launches First Unmanned Mission to Moon . 2023-09-01 . https://web.archive.org/web/20090801061001/http://www.voanews.com/english/archive/2008-10/2008-10-22-voa11.cfm . 1 August 2009.
  15. Web site: Chandrayaan-1 now in lunar orbit . 2023-09-01 . www.esa.int . en . 1 September 2023 . https://web.archive.org/web/20230901123356/https://www.esa.int/Enabling_Support/Operations/Chandrayaan-1_now_in_lunar_orbit . live .
  16. News: 2008-11-15 . Mission Accomplished: India fifth in world to reach moon . The Times of India . 2023-09-01 . 0971-8257 . 1 September 2023 . https://web.archive.org/web/20230901123352/https://timesofindia.indiatimes.com/india/mission-accomplished-india-fifth-in-world-to-reach-moon/articleshow/3714245.cms . live .
  17. News: 2009-09-25 . MIP detected water on Moon way back in June: ISRO Chairman . en-IN . The Hindu . 2023-09-01 . 0971-751X . 1 September 2023 . https://web.archive.org/web/20230901124113/https://www.thehindu.com/sci-tech/science/MIP-detected-water-on-Moon-way-back-in-June-ISRO-Chairman/article16883362.ece . live .
  18. Web site: 2014-10-06 . Chandrayaan-1 off radar, but will work for 1000 days - Economic Times . 2023-09-01 . https://web.archive.org/web/20141006130531/http://articles.economictimes.indiatimes.com/2009-09-01/news/27634980_1_chandrayaan-1-chandrayaan-2-lunar-surface . 6 October 2014.
  19. Web site: ISRO begins work on Chandrayaan-II project Brahmand News . 2023-09-01 . www.brahmand.com . 1 September 2023 . https://web.archive.org/web/20230901142251/https://www.brahmand.com/news/ISRO-begins-work-on-ChandrayaanII-project/1009/1/22.html . live .
  20. News: 2009-08-30 . Contact lost, India terminates first moon mission . en . Reuters . 2023-09-01 . 2 September 2023 . https://web.archive.org/web/20230902035042/https://www.reuters.com/article/us-india-space-idUKTRE57S13B20090830 . live .
  21. Web site: 2009-09-26 . Kalam advises ISRO, NASA on Chandrayaan-II . 2023-09-01 . The Indian Express . en . 1 September 2023 . https://web.archive.org/web/20230901135037/https://indianexpress.com/article/india/latest-news/kalam-advises-isro-nasa-on-chandrayaanii/ . live .
  22. News: Chand . Manish . 12 November 2007 . India, Russia to expand n-cooperation, defer Kudankulam deal . Nerve . dead . 12 January 2015 . https://web.archive.org/web/20140113024836/http://www.nerve.in/news%3A25350099047 . 13 January 2014.
  23. Web site: 14 August 2013 . Unstarred Question No:1402 in Lok Sabha about Chandrayaan-2 . https://web.archive.org/web/20230818195646/https://eparlib.nic.in/bitstream/123456789/647201/1/146477.pdf . 18 August 2023.
  24. Web site: domain-b.com : ISRO completes Chandrayaan-2 design . 2023-09-01 . www.domain-b.com . 7 April 2023 . https://web.archive.org/web/20230407235010/https://www.domain-b.com/aero/space/spacemissions/20090817_chandrayaan-2_design.html . live .
  25. Web site: 2019-05-13 . Payloads for Chandrayaan-2 Mission Finalised - ISRO . 2023-09-01 . https://web.archive.org/web/20190513213938/https://www.isro.gov.in/update/30-aug-2010/payloads-chandrayaan-2-mission-finalised . 13 May 2019.
  26. News: Laxman . Srinivas . 6 February 2012 . India's Chandrayaan-2 Moon Mission Likely Delayed After Russian Probe Failure . Asian Scientist . 5 April 2012 . 8 June 2019 . https://web.archive.org/web/20190608150218/https://www.asianscientist.com/2012/02/topnews/india-chandrayaan-2-moon-mission-delayed-after-russian-probe-failure-lev-zelyony-2012/ . live.
  27. Chandrayaan-2 . 14 August 2013 . Department of Space . Chandrayaan-2 would be a lone mission by India without Russian tie-up. . 26 August 2017 . 5 August 2019 . https://web.archive.org/web/20190805180613/http://pib.nic.in/newsite/PrintRelease.aspx?relid=98239 . live.
  28. Web site: 2020-10-25 . How ISRO modified a lunar orbiter into Mars orbiter Mangalyaan, India's "Moon Man" recalls . 2020-10-25 . Zee News . 26 October 2020 . https://web.archive.org/web/20201026115248/https://zeenews.india.com/india/how-isro-modified-a-lunar-orbiter-into-mars-orbiter-mangalyaan-indias-moon-man-recalls-2320097.html . live.
  29. News: 2016-11-15 . Isro creates a 'Moon' in Challakere to simulate Chandrayaan-2 landing . The Times of India . 2023-09-02 . 0971-8257 . 2 September 2023 . https://web.archive.org/web/20230902035839/https://timesofindia.indiatimes.com/city/bengaluru/isro-creates-a-moon-in-challakere-to-simulate-chandrayaan-2-landing/articleshow/55419030.cms . live .
  30. News: 2017-12-16 . 10 years after first moon probe, India readies Chandrayaan-2 for early next year . The Economic Times . 2023-09-02 . 0013-0389 . 3 September 2023 . https://web.archive.org/web/20230903100926/https://economictimes.indiatimes.com/news/science/10-years-after-first-moon-probe-india-readies-chandrayaan-2-for-early-next-year/articleshow/62094252.cms?from=mdr . live .
  31. Web site: Welcome to Embassy of India, Tokyo (Japan) . www.indembassy-tokyo.gov.in . 2021-03-20 . 22 August 2020 . https://web.archive.org/web/20200822021056/https://indembassy-tokyo.gov.in/st_cooperation.html . live .
  32. Web site: JAXA & ISRO to embark on Joint Lunar Polar Exploration . Goh . Deyana . 2017-12-08 . SpaceTech Asia . en-US . 2021-03-20 . 25 January 2021 . https://web.archive.org/web/20210125045505/https://www.spacetechasia.com/jaxa-isro-to-embark-on-joint-lunar-polar-exploration/ . live .
  33. News: 2018-08-12 . Isro wants Chandrayaan-2 lander to orbit moon first . The Times of India . 2023-09-02 . 0971-8257 . 23 April 2019 . https://web.archive.org/web/20190423080707/https://timesofindia.indiatimes.com/india/isro-wants-chandrayaan-2-lander-to-orbit-moon-first/articleshow/65370820.cms . live .
  34. News: 2018-08-05 . Soft-landing challenges keep Chandrayaan-2 grounded . The Times of India . 2023-09-02 . 0971-8257 . 29 December 2021 . https://web.archive.org/web/20211229045427/https://timesofindia.indiatimes.com/city/chennai/soft-landing-challenges-keep-chandrayaan-2-grounded/articleshow/65293768.cms . live .
  35. News: 2019-04-04 . Vikram hurt during practice, puts Chandrayaan-2 on bench . The Times of India . 2023-09-02 . 0971-8257 . 10 April 2023 . https://web.archive.org/web/20230410163850/https://timesofindia.indiatimes.com/india/damage-to-moon-lander-delays-chandrayaan-2/articleshow/68714029.cms . live .
  36. Web site: GSLV MkIII-M1 Successfully Launches Chandrayaan-2 spacecraft . Indian Space Research Organisation . 23 July 2019 . 12 December 2019 . https://web.archive.org/web/20191212123035/https://www.isro.gov.in/update/22-jul-2019/gslv-mkiii-m1-successfully-launches-chandrayaan-2-spacecraft . live.
  37. News: Gettleman . Jeffrey . Chang . Kenneth . Schultz . Kai . Kumar . Hari . 2019-09-06 . India Loses Contact With Chandrayaan-2 Moon Lander During Its Descent . en-US . The New York Times . 2023-09-02 . 0362-4331 . 2 September 2023 . https://web.archive.org/web/20230902140139/https://www.nytimes.com/2019/09/06/science/india-moon-landing-chandrayaan-2.html . live .
  38. News: 2023-07-12 . Why did Chandrayaan-2 lander fail? Isro chief gives 3 key reasons for crashlanding . The Times of India . 2023-09-02 . 0971-8257 . 2 September 2023 . https://web.archive.org/web/20230902150743/https://timesofindia.indiatimes.com/india/why-did-chandrayaan-2-lander-fail-isro-chief-gives-3-key-reasons-for-crashlanding/articleshow/101678204.cms?from=mdr . live .
  39. Web site: ISRO Will Embark on Chandrayaan 3 by November 2020 for Another Landing Attempt . 2024-03-05 . The Wire.
  40. Web site: India May Attempt 'Chandrayaan 3' Moon Landing In November 2020: Report . 2023-09-03 . NDTV.com . 3 September 2023 . https://web.archive.org/web/20230903045215/https://www.ndtv.com/india-news/india-may-attempt-chandrayaan-3-moon-landing-in-november-2020-report-2132335 . live .
  41. News: 2019-12-08 . Chandrayaan-3 is official, Isro seeks Rs 75 crore . The Times of India . 2023-09-03 . 0971-8257 . 21 August 2023 . https://web.archive.org/web/20230821144150/https://timesofindia.indiatimes.com/india/chandrayaan-3-is-official-isro-seeks-rs-75-crore/articleshow/72421303.cms . live .
  42. Web site: TN scientist heading Chandrayaan 3 mission known for his technical acumen . 2023-09-03 . The New Indian Express . 19 December 2019 . 15 July 2023 . https://web.archive.org/web/20230715122612/https://www.newindianexpress.com/states/tamil-nadu/2019/dec/19/tn-scientist-heading-chandrayaan-3-mission-known-for-his-technical-acumen-2078414.html . live .
  43. Web site: 2020-01-27 . Chandrayaan 3: ISRO starts work on second lander mission to the moon, launch planned in early 2021-Tech News, Firstpost . 2023-09-03 . Firstpost . en . 3 September 2023 . https://web.archive.org/web/20230903051114/https://www.firstpost.com/tech/science/chandrayaan-3-isro-starts-work-on-second-lander-mission-to-the-moon-launch-planned-in-early-2021-7959961.html . live .
  44. News: 2020-03-04 . Chandrayaan-3 to be launched in the first half of 2021: Govt . The Economic Times . 2023-09-03 . 0013-0389 . 3 September 2023 . https://web.archive.org/web/20230903051105/https://economictimes.indiatimes.com/news/science/chandrayaan-3-to-be-launched-in-first-half-of-2021-govt/articleshow/74478951.cms?from=mdr . live .
  45. News: 2020-09-15 . Chandrayaan-3: No 5th engine on lander . The Times of India . 2023-09-03 . 0971-8257 . 15 September 2020 . https://web.archive.org/web/20200915053013/https://timesofindia.indiatimes.com/india/chandrayaan-3-no-5th-engine-on-lander/articleshow/78117138.cms . live .
  46. News: 2020-08-28 . Chandrayaan-3: Isro to create Moon craters 200km from Bengaluru . The Times of India . 2023-09-03 . 0971-8257 . 3 September 2023 . https://web.archive.org/web/20230903052531/https://timesofindia.indiatimes.com/india/chandrayaan-3-isro-to-create-moon-craters-200km-from-bengaluru/articleshow/77796506.cms . live .
  47. News: 2021-02-21 . Chandrayaan-3 launch delayed further to 2022 . The Times of India . 2023-09-03 . 0971-8257 . 3 September 2023 . https://web.archive.org/web/20230903053300/https://timesofindia.indiatimes.com/india/chandrayaan-3-launch-delayed-further-to-2022/articleshow/81136400.cms . live .
  48. Web site: 2021-07-28 . Chandrayaan-3 launch likely in third quarter of 2022: Govt . 2023-09-03 . Hindustan Times . en . 3 September 2023 . https://web.archive.org/web/20230903053847/https://www.hindustantimes.com/india-news/chandrayaan3-to-be-launched-in-third-quarter-of-2022govt-101627458750281.html . live .
  49. Web site: Chandrayaan-3 pushed to 2023, launch to Moon likely in June . 2023-09-03 . India Today . en . 3 September 2023 . https://web.archive.org/web/20230903054820/https://www.indiatoday.in/science/story/chandrayaan-3-mission-launch-isro-moon-rover-s-somnath-2288030-2022-10-21 . live .
  50. Web site: Chandrayaan-3 launch date: Isro to lift-off India's ambitious moon mission on... . 2023-09-03 . India Today . en . 3 September 2023 . https://web.archive.org/web/20230903141655/https://www.indiatoday.in/science/story/chandrayaan-3-launch-date-isro-to-lift-off-indias-ambitious-moon-mission-on-2382156-2023-05-21 . live .
  51. News: Ray . Kalyan . Sivapriyan . ETB . 6 August 2023 . Chandrayaan-3 successfully inserted into lunar orbit, says ISRO . live . https://web.archive.org/web/20230903141700/https://www.deccanherald.com/science/chandrayaan-3-successfully-inserted-into-lunar-orbit-says-isro-1244048.html . 3 September 2023 . 3 September 2023 . .
  52. News: Kumar . Hari . Travelli . Alex . Mashal . Mujib . Chang . Kenneth . 2023-08-23 . India Moon Landing: In Latest Moon Race, India Lands First in Southern Polar Region . en-US . The New York Times . 2023-09-03 . 0362-4331 . 26 August 2023 . https://web.archive.org/web/20230826034411/https://www.nytimes.com/live/2023/08/23/science/india-moon-landing-chandrayaan-3 . live .
  53. Web site: Ramesh . M. . 2023-08-25 . Pragyan rover crawls on the moon . 2023-09-03 . BusinessLine . en . 3 September 2023 . https://web.archive.org/web/20230903144228/https://www.thehindubusinessline.com/news/pragyan-rover-crawls-on-the-moon/article67236009.ece . live .
  54. Web site: 2008-11-16 . Moon Impact Probe . 2023-09-08 . https://web.archive.org/web/20081116040336/http://www.isro.gov.in/Chandrayaan/htmls/mip.htm . 16 November 2008.
  55. Web site: 2008-10-23 . Description of Chandrayaan-1 . 2023-09-03 . https://web.archive.org/web/20081023064658/http://www.isro.gov.in/Chandrayaan/htmls/spacecraft_description.htm . 23 October 2008.
  56. Web site: Chaudhury . A. Roy . October 2007 . High Resolution Stereoscopic Terrain Mapping Camera of Chandrayaan-1 . sci.esa.int . 19 September 2023 . live . https://web.archive.org/web/20230919093948/https://sci.esa.int/documents/34200/36212/1567256030773-3-TMC_ICEUM9.pdf.
  57. Web site: Chandrayaan-1 Successfully Reaches its Operational Lunar Orbit . 12 November 2008 . ISRO . https://web.archive.org/web/20090827100002/http://isro.gov.in/pressrelease/scripts/pressreleasein.aspx?Nov12_2008 . 27 August 2009 . dead.
  58. Web site: 2012-10-22 . Mission Accomplished: India fifth in world to reach moon - Times Of India . 2023-09-13 . https://web.archive.org/web/20121022074629/http://articles.timesofindia.indiatimes.com/2008-11-15/india/27904216_1_lunar-surface-moon-impact-probe-chandrayaan . 22 October 2012.
  59. News: 2023-08-24 . BBC NEWS South Asia India moon craft hit by heat rise . 2023-09-13 . https://web.archive.org/web/20230824114249/http://news.bbc.co.uk/2/hi/south_asia/7748611.stm . 24 August 2023.
  60. Web site: 2011-08-11 . Chandrayaan-I was 'killed' by heat stroke - Times Of India . 2023-09-13 . https://web.archive.org/web/20110811080919/http://articles.timesofindia.indiatimes.com/2009-09-07/india/28066525_1_chandrayaan-1-lunar-surface-scientific-goals . 11 August 2011.
  61. Web site: 2011-08-13 . Chandrayaan 1 Mission Officially Terminated . 2023-09-13 . https://web.archive.org/web/20110813213111/http://www.techtree.com/India/News/Chandrayaan_1_Mission_Officially_Terminated/551-105927-547.html . 13 August 2011.
  62. Web site: Chandrayaan-2 CHANDRYN2 . NASA . 3 July 2019 . 29 July 2019 . https://web.archive.org/web/20190729172632/https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=CHANDRYN2 . live.
  63. Web site: Question No. 1084: Deployment of Rover on Lunar Surface . Rathinavel . T. . T. Rathinavel . Singh . Jitendra . Jitendra Singh (BJP politician) . 24 November 2016 . Rajya Sabha . 2 August 2017 . 2 August 2017 . https://web.archive.org/web/20170802142742/http://164.100.158.235/question/annex/241/Au1084.pdf . live.
  64. Web site: Chandrayaan-2 Payloads . Indian Space Research Organisation . 12 June 2019 . live . https://web.archive.org/web/20190713044952/https://www.isro.gov.in/chandrayaan2-payloads . 13 July 2019 . 13 July 2019.
  65. Web site: India's Chandrayaan-2 moon mission enters lunar orbit . Kottasová . Ivana . Gupta . Swati . 20 August 2019 . CNN . 6 September 2019 . 5 September 2019 . https://web.archive.org/web/20190905100336/https://www.cnn.com/2019/08/20/asia/chandrayaan-2-india-lunar-orbit-scli-intl/index.html . live.
  66. Web site: Chandrayaan-2: Fifth Lunar Orbit Maneuver . Indian Space Research Organisation . 1 September 2019 . 3 September 2019 . https://web.archive.org/web/20190903075526/https://www.isro.gov.in/update/01-sep-2019/chandrayaan-2-update-fifth-lunar-orbit-maneuver . live.
  67. Web site: Chandrayaan-2: Vikram Lander successfully separates from Orbiter . Indian Space Research Organisation . 2 September 2019 . 3 September 2019 . https://web.archive.org/web/20190903080138/https://www.isro.gov.in/update/02-sep-2019/chandrayaan-2-update-vikram-lander-successfully-separates-orbiter . live.
  68. Web site: 2022-08-04 . Chandrayaan2 - Images from the Orbiter High-Resolution Camera - ISRO . 2023-09-14 . https://web.archive.org/web/20220804152433/https://www.isro.gov.in/update/04-oct-2019/chandrayaan2-images-orbiter-high-resolution-camera . 4 August 2022.
  69. Web site: 2023-04-10 . K Sivan: Orbiter will have a lifespan of 7.5 years, it's possible to find Vikram Lander from orbiter: Isro chief India News - Times of India . . 2023-09-14 . https://web.archive.org/web/20230410064030/https://timesofindia.indiatimes.com/india/orbiter-will-have-a-lifespan-of-7-5-years-its-possible-to-find-vikram-lander-from-orbiter-isro-chief/articleshow/71028078.cms . 10 April 2023.
  70. Web site: NASA – NSSDCA – Spacecraft – Details . 10 June 2022 . 8 June 2022 . https://web.archive.org/web/20220608231611/https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=CHANDRYN3 . live.
  71. News: 2023-07-15 . Chandrayaan-3 A flight to the moon . en-IN . The Hindu . 2023-07-17 . 0971-751X . 17 July 2023 . https://web.archive.org/web/20230717131704/https://www.thehindu.com/sci-tech/science/chandrayaan-3-a-flight-to-the-moon/article67084942.ece . live.
  72. 1691655268449603770 . isro . Chandrayaan-3 Mission . 16 August 2023 . 16 August 2023.
  73. News: 17 August 2023 . Chandrayaan-3: Indian lunar lander Vikram inches closer to Moon . en-GB . BBC News . live . 23 August 2023 . https://web.archive.org/web/20230823141116/https://www.bbc.com/news/world-asia-india-66530022 . 23 August 2023.
  74. Web site: Returns to home Earth: Chandrayaan-3 Propulsion Module moved from Lunar orbit to Earth's orbit . 2023-12-04 . www.isro.gov.in . 5 December 2023 . https://web.archive.org/web/20231205193840/http://www.isro.gov.in/Ch3_Propulsion_Module_moved_from_Lunar_orbit_to_Earth_orbit.html . live .
  75. Web site: 2018-08-29 . Chandrayaan-2 to Be Launched in January 2019, Says ISRO Chief Technology News . 2023-09-14 . https://web.archive.org/web/20180829225643/https://gadgets.ndtv.com/science/news/chandrayaan-2-to-be-launched-in-january-2019-says-isro-chief-1907969 . 29 August 2018.
  76. Web site: 2020-10-22 . Paper information (56421) — IAF . 2023-09-14 . https://web.archive.org/web/20201022033811/http://iafastro.directory/iac/paper/id/56421/summary/ . 22 October 2020.
  77. Web site: 2019-07-08 . Chandrayaan-2: First step towards Indians setting foot on moon in near future . 2023-09-14 . live . https://web.archive.org/web/20190708054742/http://www.newindianexpress.com/nation/2019/jul/08/chandrayaan-2-first-step-towards-indians-setting-foot-on-moon-in-near-future-2000898.html . 8 July 2019.
  78. Web site: 2022-01-08 . Chandrayaan-2 update: Second de-orbiting maneuver - ISRO . 2023-09-14 . https://web.archive.org/web/20220108091607/https://www.isro.gov.in/update/04-sep-2019/chandrayaan-2-update-second-de-orbiting-maneuver . 8 January 2022.
  79. Web site: 2021-11-20 . Chandrayaan 2 - Update - ISRO . 2023-09-14 . https://web.archive.org/web/20211120064856/https://www.isro.gov.in/update/07-sep-2019/chandrayaan-2-update . 20 November 2021.
  80. ISRO Chief explains what went wrong with Chandrayaan-2 and how Chandrayaan-3 will be different! . 2023-07-10 . 14 September 2023 . 11 August 2023 . https://web.archive.org/web/20230811144233/https://www.youtube.com/watch?v=gGv4qpSSl3w&feature=youtu.be . live .
  81. First Prof. (Dr.) Pradeep Memorial Lecture, IISc Alumni Association. "Chandrayaan-3: ISRO's Moon Exploration" by S Somanath, Chairman, ISRO . 2023-08-05 . 37 minute 28 seconds . 14 September 2023 . 10 August 2023 . https://web.archive.org/web/20230810232116/https://www.youtube.com/watch?v=fZ2sNRP1opY&t=2247s . live .
  82. Web site: Sharma . Shaurya . 21 October 2022 . Chandrayaan-3 To Be More Robust, Have Contingency Systems Onboard, Says ISRO Chief . live . https://web.archive.org/web/20221022080431/https://www.news18.com/news/tech/chandrayaan-3-to-be-more-robust-have-contingency-systems-onboard-says-isro-chief-6216451.html . 22 October 2022 . 22 October 2022 . News18 . en.
  83. News: Kumar . Chethan . 19 November 2019 . Chandrayaan-3 plans indicate failures in Chandrayaan-2 . The Times of India . live . 15 September 2020 . https://web.archive.org/web/20191121090445/https://timesofindia.indiatimes.com/india/chandrayaan-3-plans-indicate-failures-in-chandrayaan-2/articleshow/72128771.cms . 21 November 2019.
  84. Web site: Chandrayaan-3: India plans third Moon mission . 1 January 2020 . BBC News . 2 January 2020 . 2 January 2020 . https://web.archive.org/web/20200102084927/https://www.bbc.com/news/world-asia-india-50965778 . live.
  85. Web site: ISRO Opted For A "Failure-Based Design" In Chandrayaan-3. Here's Why . 2023-09-14 . NDTV.com . 4 October 2023 . https://web.archive.org/web/20231004103513/https://www.ndtv.com/india-news/chandrayaan-3-isro-opted-for-a-failure-based-design-in-chandrayaan-3-heres-why-4194568 . live .
  86. 1692995757413192015 . isro . Chandrayaan 3 mission: second and final deorbiting operation..
  87. News: Bhattacharjee . Nivedita . 2023-08-23 . Chandrayaan-3 spacecraft lands on moon in 'victory cry' of new India . en . Reuters . 2023-08-23 . 23 August 2023 . https://web.archive.org/web/20230823145806/https://www.reuters.com/world/india/india-counts-down-crucial-moon-landing-2023-08-23/ . live .
  88. 1698570774385205621 . isro . Vikram Lander exceeded its mission objectives. It successfully underwent a hop experiment. On command, it fired the engines, elevated itself by about 40 cm as expected, and landed safely at a distance of 30 – 40 cm away. Importance?: This 'kick-start' enthuses future sample return and human missions! All systems performed nominally and are healthy. Deployed Ramp, ChaSTE and ILSA were folded back and redeployed successfully after the experiment. . . 2023-09-04.
  89. Web site: Vikram lander's sudden hop on the Moon: Why it's a big deal . 2023-09-13 . India Today . 4 September 2023 . en . 4 September 2023 . https://web.archive.org/web/20230904104001/https://www.indiatoday.in/science/chandrayaan-3/story/vikram-landers-sudden-hop-on-the-moon-why-its-a-big-deal-2430701-2023-09-04 . live .
  90. Web site: India's Chandrayaan-3 lunar lander successfully 'hops' on the moon . 2023-09-13 . Sky News . en . 5 September 2023 . https://web.archive.org/web/20230905162656/https://news.sky.com/story/indias-chandrayaan-3-lunar-lander-successfully-hops-on-the-moon-12954786 . live .
  91. Web site: 2019-09-04 . Ashoka Chakra, ISRO Logo, Flag: Chandrayaan 2 Set to Engrave India's Name on Moon for Centuries - News18 . 2023-09-14 . https://web.archive.org/web/20190904165024/https://www.news18.com/news/india/ashoka-chakra-isro-logo-flag-chandrayaan-2-set-to-engrave-indias-name-on-moon-for-centuries-2184543.html . 4 September 2019.
  92. Web site: Monisha Ravisetti . 2023-08-28 . India's Chandrayaan-3 takes the moon's temperature near lunar south pole for 1st time . live . https://web.archive.org/web/20230829185045/https://www.space.com/chandrayaan-3-moon-temperature-lunar-south-pole-first-time . 29 August 2023 . 2023-08-29 . Space.com . en.
  93. Web site: ISRO – Chandrayaan-3 Mission – Rover rollout . live . https://web.archive.org/web/20230830133017/https://twitter.com/isro/status/1694945669721776263 . 30 August 2023 . 2023-08-29 . X (formerly Twitter) . en.
  94. Web site: 2006-02-13 . SPACE.com -- The Moon's Malapert Mountain Seen As Ideal Site for Lunar Lab . . 2023-09-28 . https://web.archive.org/web/20060213061216/http://www.space.com/scienceastronomy/solarsystem/moon_mountain_020326.html . 13 February 2006.
  95. Watson . Kenneth . Murray . B. C. . Brown . Harrison . The Behavior of Volatiles on the Lunar Surface . Journal of Geophysical Research . 66 . 9 . 3033–3045 . Division of Geological Sciences, California Institute of Technology . Pasadena, California . September 1961 . 10.1029/JZ066i009p03033 . 1961JGR....66.3033W . English . 25 September 2023 . 4 June 2023 . https://web.archive.org/web/20230604101947/https://authors.library.caltech.edu/51509/ . dead .
  96. Pieters . C. M. . Goswami . J. N. . Clark . R. N. . Annadurai . M. . Boardman . J. . Buratti . B. . Combe . J.-P. . Dyar . M. D. . Green . R. . Head . J. W. . Hibbitts . C. . Hicks . M. . Isaacson . P. . Klima . R. . Kramer . G. . 2009-10-23 . Character and Spatial Distribution of OH/H 2 O on the Surface of the Moon Seen by M 3 on Chandrayaan-1 . Science . en . 326 . 5952 . 568–572 . 10.1126/science.1178658 . 0036-8075 . free . 19779151 .
  97. Web site: Water on the Moon: Direct evidence from Chandrayaan-1's Moon Impact... . 2023-09-29 . The Planetary Society . en . 20 September 2019 . https://web.archive.org/web/20190920161640/http://www.planetary.org/blogs/emily-lakdawalla/2010/2430.html . live .
  98. Sridharan . R. . Ahmed . S. M. . Pratim Das . Tirtha . Sreelatha . P. . Pradeepkumar . P. . Naik . Neha . Supriya . Gogulapati . 2010-05-01 . 'Direct' evidence for water (H2O) in the sunlit lunar ambience from CHACE on MIP of Chandrayaan I . Planetary and Space Science . 58 . 6 . 947–950 . 10.1016/j.pss.2010.02.013 . 0032-0633 . 4 October 2023 . 22 March 2019 . https://web.archive.org/web/20190322152116/https://www.sciencedirect.com/science/article/pii/S0032063310000693 . live .
  99. News: Ice on the Surface of the Moon? Almost Certainly, New Research Shows . Fortin . Jacey . 22 August 2018 . . 22 August 2018 . en . 22 August 2018 . https://web.archive.org/web/20180822091635/https://www.nytimes.com/2018/08/22/science/ice-moon.html . live.
  100. Direct evidence of surface exposed water ice in the lunar polar regions . Proceedings of the National Academy of Sciences of the United States of America . 115 . 36 . 8907–8912 . Shuai Li . Paul G. Lucey . Ralph E. Milliken . Paul O. Hayne . Elizabeth Fisher . Jean-Pierre Williams . Dana M. Hurley . Richard C. Elphic . 20 August 2018 . 10.1073/pnas.1802345115 . 30126996 . 6130389 . 2018PNAS..115.8907L . free.
  101. Web site: Chandrayaan-1 spacecraft completes 3000 orbits around the Moon . 18 July 2009 . ISRO . https://web.archive.org/web/20090827084622/http://isro.gov.in/pressrelease/scripts/pressreleasein.aspx?Jul17_2009 . 27 August 2009 . dead.
  102. Web site: Chandrayaan beams back 40,000 images in 75 days - India - The Times of India . 2023-10-14 . timesofindia.indiatimes.com . 20 November 2023 . https://web.archive.org/web/20231120114917/https://timesofindia.indiatimes.com/Cities/Ahmedabad/Chandrayaan_beams_back_40000_images_in_75_days/rssarticleshow/3979496.cms . live .
  103. News: Indian scientists discover a large cave on the Moon . Economic Times . 9 February 2010 . Nair . Avinash .
  104. Web site: Krishnakumar . R. . 'LUPEX will set tone for lunar sample return missions' . 2024-02-01 . Deccan Herald . en . 1 February 2024 . https://web.archive.org/web/20240201151953/https://www.deccanherald.com/science/lupex-will-set-tone-for-lunar-sample-return-missions-2873709 . live .
  105. News: 2024-08-20 . Chandrayaan 4 and 5 design complete; 70 satellites likely to be launched in 5 years: ISRO chief . 2024-08-21 . The Hindu . en-IN . 0971-751X.
  106. News: 2023-11-17 . ISRO working on ambitious lunar missions LUPEX, Chandrayaan-4: Official . The Economic Times . 2023-12-15 . 0013-0389 . 20 November 2023 . https://web.archive.org/web/20231120063137/https://economictimes.indiatimes.com/news/science/isro-working-on-ambitious-lunar-missions-lupex-chandrayaan-4-official/articleshow/105292411.cms . live .
  107. Web site: 2022-04-11 . ISRO to handhold private sector to create innovative space ecosystem in the country: S. Somanath, Chairman . 2022-05-09 . Geospatial World . en-US . We are working with JAXA on developing a payload, as well as a mission to go to moon. This will be launched using Japan's launch vehicle, but the spacecraft will be jointly developed by ISRO and Japan. A lander that will land on the moon. This will be after Chandrayaan 3 It will take three, four, or five years to develop. . 13 May 2023 . https://web.archive.org/web/20230513015215/https://www.geospatialworld.net/latest/isro-to-handhold-private-sector-to-create-innovative-space-ecosystem-in-the-country-s-somanath-chairman/ . live .
  108. Web site: 2023-06-14 . ISRO & JAXA Forge a Lunar Partnership: LUPEX Mission set to soar . 2023-08-03 . Financialexpress . en . 3 August 2023 . https://web.archive.org/web/20230803122446/https://www.financialexpress.com/business/defence-isro-jaxa-forge-a-lunar-partnership-lupex-mission-set-to-soar-3125434/ . live .
  109. News: 2017-11-17 . India, Japan working on lunar sample return mission . 2024-03-05 . The Hindu . en-IN . 0971-751X.
  110. Web site: Episode 82: Jaxa and International Collaboration with Professor Fujimoto Masaki . 2019-01-04 . AstrotalkUK . en-GB . 2019-06-21 . 16 January 2021 . https://web.archive.org/web/20210116033628/https://astrotalkuk.org/episode-82-jaxa-and-international-collaboration-with-professor-fujimoto-masaki/ . live.
  111. Web site: JAXA's Lunar Exploration Activities . Sasaki . Hiroshi . 17 June 2019 . UNOOSA . 8 . 9 July 2019 . 16 May 2021 . https://web.archive.org/web/20210516154934/https://www.unoosa.org/documents/pdf/copuos/2019/copuos2019tech16E.pdf . live.
  112. Web site: Chandrayaan 4 and 5 design complete; 70 satellites likely to be launched in 5 years: ISRO chief . 2024-08-21 . thehindu.com .
  113. Web site: India has a new plan to explore the Moon beyond Chandrayaan-3 . 2024-02-08 . India Today . 7 February 2024 . en . 8 February 2024 . https://web.archive.org/web/20240208090127/https://www.indiatoday.in/science/story/india-designing-roadmap-to-explore-moon-with-bigger-missions-after-chandrayaan-3-2498865-2024-02-07 . live .
  114. News: 17 April 2024 . ISRO chief Somanath's big claim on Chandrayaan lunar mission : 'Till an Indian...' . live . https://web.archive.org/web/20240418224518/https://www.livemint.com/science/news/isro-to-continue-lunar-mission-till-an-indian-lands-on-the-moon-somanath-11713354631483.html . 18 April 2024 . 17 April 2024 . .