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Indian Scientists land Vikram and Paragyan at Moon

dalvinder45

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Jul 22, 2023
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Indian Scientists land Vikram and Paragyan at Moon
Dr. Dalvinder Singh Grewal


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Chandeyan-3 liftoff

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Vikram and Paragyan at Moon

Photos of Key Scientists of Chandaryan-3 success
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1. S Somanath, ISRO Chairman 2. P Veeramuthuvel, Project Director, Chandrayaan-3


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3. S Unnikrishnan Nair, Director, Vikram Sarabhai Space Centre
4. A Rajarajan, chairman, Launch Authorisation Board

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5. M Sankaran, Director, U R Rao Satellite Centre 6. Union Minister of State for Science and Technology Dr Jitendra Singh congratulates ISRO Chairman Dr S Somanath for the successful launch of the Chandrayaan-3 mission from the Satish Dhawan Space Centre in Sriharikota,
 
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dalvinder45

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Jul 22, 2023
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According to ISRO, lander and the rover have five scientific payloads which have been placed inside the lander module.
Rover's alpha particle X-ray spectrometer will be used to derive the chemical composition and infer mineralogical composition to further enhance the understanding of the lunar surface.
Laser induced breakdown spectroscope will determine the elemental composition of the lunar soil and rocks around the Moon's landing site.

The deployment of Rover to carry out in-situ scientific experiments would scale new heights in lunar expeditions, ISRO said.

The Mission life of both lander and rover is 1 lunar day each, which is equal to 14 Earth days.
The lander payloads are RAMBHA-LP (langmuir probe), to measure the near surface plasma (ions and electrons) density and its changes with time.

ChaSTE Chandra's Surface Thermo Physical Experiment will carry out the measurements of thermal properties of lunar surface near polar region.

The instrument for lunar seismic activity will measure the seismicity around the landing site and delineating the structure of the lunar crust and mantle.
 

P J Singh

SPNer
Oct 7, 2022
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One of the leading young scientists at ISRO - Harjeet Singh - Indian Postal stamp issued in 2019 to recognize his outstanding contributions at ISRO!!
 
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A_seeker

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Jun 6, 2018
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S Somanath, ISRO Chairman thanking Prime Minister Modi his quote:
'The Honourable PM called me and conveyed his greetings to each one of you and your family for the wonderful work you did in ISRO. Thanks to him for the support he is giving to us for missions like Chandrayaan-3 and missions that are in the offing. That's the great word of comfort that we are receiving for pursuing the inspirational work that we are doing for the nation,'' Somanath said, addressing the ISRO team at the Mission Operations Complex.
 

dalvinder45

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Jul 22, 2023
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As per information, Harjot Singh cleared Class XII in Non-Medical Group from Government Senior Secondary School, Bhim Nagar, Moga, and obtained a B.Tech (Mechanical Engineering) degree from Giani Zail Singh College of Engineering, Bathinda (now Maharaja Ranjit Singh Technical University) in 2007.
He was awarded Team Excellence Award and Young Scientist Award 2018 by ISRO.

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MAHENDAR PAL SINGH​

Head R&QA Mechanical Integration & Testing at UR Rao Satellite Centre, ISRO Full-time Aug 1987 - Present · 36 yrs 1 mo
ਮਿਸ਼ਨ ਯੰਦਰਯਾਨ 3 ਨੂੰ ਸਫਲ ਬਣਾਉਣ ਵਾਲੀ ਟੀਮ ਵਿੱਚ 2 ਪੰਜਾਬੀਆਂ ਦਾ ਵੱਡਾ ਅਹਿਮ ਰੋਲ ਰਿਹਾ । ਉਨ੍ਹਾਂ ਵਿੱਚੋਂ ਇੱਕ ਮਹਿੰਦਰ ਪਾਲ ਸਿੰਘ ਅਤੇ ਦੂਜੇ ਨੌਜਵਾਨ ਸਇੰਟਿਸ ਨਿਖਿਲ ਅਨੰਦ ਹਨ । ਜਿੰਨਾਂ ਨੇ ਦਿਨ ਰਾਤ ਇੱਕ ਕਰਕੇ ਚੰਦਰਯਾਨ -3 ਨੂੰ ਸਫਲ ਬਣਾਉਣ ਵਿੱਚ ਅਹਿਮ ਭੂਮਿਕਾ ਅਦਾ ਕੀਤੀ । ਜਦੋਂ ਚੰਦਰਯਾਨ -3 ਚੰਨ ‘ਤੇ ਲੈਂਡ ਕਰ ਰਿਹਾ ਸੀ ਤਾਂ ਉਸ ਵੇਲੇ ਉਨ੍ਹਾਂ ਦੀ ਮਿਹਨਤ ਵੀ ਦਾਅ ‘ਤੇ ਸੀ ।

‘ਸਾਨੂੰ ਯੰਦਰਯਾਨ 3 ‘ਤੇ ਪੂਰਾ ਭਰੋਸਾ ਸੀ’

ਮਹਿੰਦਰਪਾਲ ਸਿੰਘ ਇਸਰੋ ਵਿੱਚ ਕੁਆਲਿਟੀ ਮੈਨੇਜਮੈਂਟ ਸਿਸਟਮ ਦੇ ਮੁਖੀ ਹਨ । ਯਾਨੀ ਚੰਦਰਯਾਨ -3 ਵਿੱਚ ਲੱਗਣ ਵਾਲੇ ਹਰ ਇੱਕ ਪੁਰਜੇ ਦੀ ਬਰੀਕੀ ਨਾਲ ਜਾਂਚ ਉਨ੍ਹਾਂ ਦੇ ਅਧੀਨ ਹੀ ਕੀਤੀ ਗਈ ਹੈ । ਮਹਿੰਦਰਪਾਲ ਸਿੰਘ ਨੇ ਦੱਸਿਆ ਕਿ ਇਸਰੋ ਚੇਅਰਮੈਨ ਸ਼ੁਰੂ ਤੋਂ ਹੀ ਇਸ ਗੱਲ ਨੂੰ ਲੈਕੇ ਯਕੀਨ ਰੱਖ ਦੇ ਸਨ ਕਿ ਚੰਦਰਯਾਨ 3 ਜ਼ਰੂਰ ਚੰਨ ਦੇ ਦੱਖਣੀ ਹਿੱਸੇ ਵਿੱਚ ਸਫਲਤਾ ਨਾਲ ਪਹੁੰਚੇਗਾ। ਉਨ੍ਹਾਂ ਕਿਹਾ ਜਿਵੇ-ਜਿਵੇ ਚੰਦਰਯਾਨ-3 ਦੀ ਲਾਂਚਿੰਗ ਦਾ ਦਿਨ ਨਜ਼ਦੀਕ ਆ ਰਿਹਾ ਸੀ ਸਾਡੇ ਦਿਲ ਦੀ ਧੜਕਨਾ ਜ਼ਰੂਰ ਵੱਧ ਰਹੀਆਂ ਸਨ ਪਰ ਚੰਦਰਯਾਨ -2 ਦੇ ਫੇਲ੍ਹ ਹੋਣ ਤੋਂ ਬਾਅਦ ਅਸੀਂ ਅਗਲੇ ਚਾਰ ਸਾਲ ਟੈਸਟਿੰਗ ‘ਤੇ ਲਗਾਏ ਇਸ ਤੋਂ ਬਾਅਦ ਸਾਨੂੰ ਪੂਰਾ ਭਰੋਸਾ ਸੀ ਕਿ ਚੰਦਰਯਾਨ -3 ਕਾਮਯਾਬੀ ਨਾਲ ਚੰਨ ‘ਤੇ ਲੈਂਡ ਹੋਵੇਗਾ । ਮਹਿੰਦਪਾਲ ਸਿੰਘ ਨੇ ਭਾਰਤ ਦੇ ਲੋਕਾਂ ਦਾ ਧੰਨਵਾਦ ਕਰਦੇ ਹੋਏ ਕਿ ਤੁਸੀਂ ਚੰਦਰਯਾਨ 3 ਦੇ ਲਈ ਅਰਦਾਸ ਕੀਤੀ ਜਿਸ ਦੀ ਵਜ੍ਹਾ ਕਰਕੇ ਅਸੀਂ ਸਫਲ ਹੋ ਸਕੇ ਹਾਂ।

ਉਨ੍ਹਾਂ ਕਿਹਾ ਚੰਦਰਯਾਨ -3 ਦੀ ਖੋਜ ਨਾਲ ਨਾ ਸਿਰਫ ਭਾਰਤ ਨੂੰ ਫਾਇਦਾ ਹੋਵੇਗਾ ਬਲਕਿ ਪੂਰੀ ਦੁਨੀਆ ਨੂੰ ਇਸ ਦਾ ਲਾਭ ਮਿਲੇਗਾ । ਮਹਿੰਦਰਪਾਲ ਸਿੰਘ ਨੇ ਯੂਥ ਨੂੰ ਅਪੀਲ ਕੀਤੀ ਉਹ ਵੱਧ ਤੋਂ ਵੱਧ ਸਾਇੰਸ ਦੇ ਨਾਲ ਜੁੜਨ ।

35 ਸਾਲ ਤੋਂ ਇਸਰੋ ਨਾਲ ਜੁੜੇ ਮਹਿੰਦਰਪਾਲ ਸਿੰਘ

ਪਿਛਲੇ 35 ਸਾਲ ਤੋਂ ਮਹਿੰਦਰਪਾਲ ਸਿੰਘ ਬੈਂਗਲੁਰੀ ਵਿੱਚ ਰਹਿਕੇ ਇਸਰੋ ਦੇ ਨਾਲ ਜੁੜੇ ਹੋਏ ਹਨ । ਮਹਿੰਦਰਪਾਲ ਸਿੰਘ ਨੇ ਇਸਰੋ ਦੇ ਵੱਡੇ-ਵੱਡੇ ਪ੍ਰੋਜੈਕਟਾਂ ਵਿੱਚ ਅਹਿਮ ਰੋਲ ਅਦਾ ਕੀਤਾ ਹੈ। ਉਨ੍ਹਾਂ ਨੇ HR SETLITE ‘ਤੇ ਡਿਪਟੀ ਪ੍ਰੋਜੈਕਟ ਡਾਇਰੈਕਟਰ ਵੀ ਹਨ । ਇਸ ਤੋਂ ਇਲਾਵਾ 5 ਨਵੰਬਰ 2013 ਨੂੰ ਜਦੋਂ ਭਾਰਤ ਨੇ ਮੰਗਲਯਾਨ ਲਾਂਚ ਕੀਤਾ ਸੀ ਉਸ ਦੇ ਪ੍ਰੋਜੈਕਟ ਡਾਇਰੈਕਟਰ ਦਾ ਜ਼ਿੰਮਾ ਉਨ੍ਹਾਂ ਦੇ ਕੋਲ ਸੀ । ਮਿਸ਼ਨ ਮੰਗਲਯਾਨ ਨੂੰ ਉਨ੍ਹਾਂ ਦੀ ਦੇਖ ਰੇਖ ਵਿੱਚ ਹੀ ਪੁਲਾੜ ‘ਤੇ ਭੇਜਿਆ ਗਿਆ ਸੀ । ਮਹਿੰਦਰਪਾਲ ਸਿੰਘ ਨੇ ਮੌਸਮ ਦੀ ਇੱਕ ਸੈੱਟ ਲਾਈਟ ਲਾਂਚ ਕੀਤੀ ਸੀ ਜੋ ਕਿ 2013 ਵਿੱਚ ਵਿਆਨਾ ਤੋਂ ਲਾਂਚ ਕੀਤੀ ਗਈ ਸੀ ਉਸ ਦੇ ਪ੍ਰੋਜੈਕਟ ਮੈਨੇਜਰ ਵੱਜੋ ਉਨ੍ਹਾਂ ਨੂੰ ਕੰਮ ਕਰਨ ਦਾ ਮੌਕਾ ਮਿਲਿਆ ਸੀ । ਮੌਸਮ ਦੀ ਇਸ ਸੈੱਟ ਲਾਈਟ ਨੂੰ ਲਾਂਚ ਕਰਨ ਦੇ ਲਈ ਮਹਿੰਦਰਪਾਲ ਸਿੰਘ 1 ਮਹੀਨਾ ਵਿਆਨਾ ਵਿੱਚ ਵੀ ਰਹੇ ਸਨ । ਇਸ ਤੋਂ ਇਲਾਵਾ ਚੰਦਰਯਾਨ 3 ਵਿੱਚ ਚੰਡੀਗੜ੍ਹ ਦੇ ਨਿਖਿਲ ਆਨੰਦ ਦਾ ਵੀ ਅਹਿਮ ਰੋਲ ਰਿਹਾ ਹੈ ।


ਰਾਕੇਟ ਟੀਮ ਵਿੱਚ ਨਿਖਿਲ ਆਨੰਦ ਸ਼ਾਮਲ

ਚੰਡੀਗੜ੍ਹ ਦੇ ਨਿਖਿਲ ਆਨੰਦ ਦੇ ਇਸਰੋ ਨਾਲ ਜੁੜਨ ਦੀ ਕਹਾਣੀ ਬਹੁਤ ਹੀ ਹੈਰਾਨ ਕਰਨ ਵਾਲੀ ਹੈ । ਇਸ ਬਾਰੇ ਵੀ ਤੁਹਾਨੂੰ ਦੱਸਾਂਗੇ ਪਹਿਲਾਂ ਤੁਹਾਨੂੰ ਦੱਸਦੇ ਹਾਂ ਉਨ੍ਹਾਂ ਦੇ ਰੋਲ ਬਾਰੇ । ਜਦੋਂ ਚੰਦਰਯਾਨ 3 ਲਾਂਚ ਹੋਇਆ ਤਾਂ ਉਨ੍ਹਾਂ ਦੀ ਜ਼ਿੰਮੇਵਾਰੀ ਸੀ ਜਿਸ ਰਾਕਟ ਵਿੱਚ ਚੰਦਰਯਾਨ 3 ਛੱਡਿਆ ਗਿਆ ਹੈ ਉਸ ਦੀ ਸਾਰੀ ਜ਼ਿੰਮੇਵਾਰੀ ਨਿਖਿਲ ਆਪਣੇ ਸਾਥੀਆਂ ਦੇ ਨਾਲ ਸੰਭਾਲ ਰਹੇ ਸਨ । ਇਹ ਸਭ ਤੋਂ ਅਹਿਮ ਅਤੇ ਪਹਿਲੀ ਜ਼ਿੰਮੇਵਾਰੀ ਸੀ ਕਿ ਚੰਦਰਯਾਨ 3 ਨੂੰ ਅਕਾਸ਼ ਵਿੱਚ ਸਫਲਤਾ ਦੇ ਨਾਲ ਛੱਡਣਾ । ਇਸਰੋ ਨਾਲ ਜੁੜਨ ਦੀ ਨਿਖਿਲ ਆਨੰਦ ਦੀ ਹਸਰਤ 16 ਦਸੰਬਰ 2021 ਨੂੰ ਪੂਰੀ ਹੋਈ । ਦਰਅਸਲ ਉਹ ਪਹਿਲਾਂ ਵਕੀਲ ਸਨ, ਪਰ ਦਿਲ ਇੱਕ ਦਮ ਸਾਇੰਟਿਸ ਬਣਨ ਦੀ ਸੁਪਣਾ ਵੀ ਸੀ । ਉਹ ਬਾਰ ਦੇ ਮੈਂਬਰ ਵੀ ਬਣੇ ਪਰ ਉਸੇ ਦੌਰਾਨ ਉਹ ਵਿਗਿਆਨੀ ਬਣਨ ਦੀ ਦੌੜ ਵਿੱਚ ਲੱਗ ਗਏ ਅਤੇ ਉਨ੍ਹਾਂ ਨੂੰ 2021 ਵਿੱਚ ਕਾਮਯਾਬੀ ਵੀ ਮਿਲੀ । ਨਿਖਿਲ ਆਨੰਦ ਦੀ ਇਸ ਕਾਮਯਾਬੀ ਨਾਲ ਪੂਰੀ ਪਰਿਵਾਰ ਖੁਸ਼ ਹੈ ।
 

A_seeker

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Jun 6, 2018
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ISRO chief on Science and Vedas !!!
Interesting to ponder upon ..

ISRO Chief said : "Principles of science originated in Vedas but repackaged as western discoveries"

He said "Algebra, square roots, concepts of time, architecture, structure of universe & even aviation were first found in the Vedas but they travelled to Europe.


"Scientific theories originated from Vedas. Being a rocket scientist I was fascinated by a book in Sanskrit that talks about the solar system, time- scale, and the size and circumference of Earth. Engineers and scientists like Sanskrit a great deal".
 

dalvinder45

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Jul 22, 2023
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First observations ever of the outskirts of a supermassive black hole's accretion disk​

by Josie Fenske, NSF's NOIRLab

Accretion disks: How big are they really?
An artist’s impression of a supermassive black hole with an accretion disk orbiting it. The annotations show a hypothetical double-peaked profile with arrows indicating where in the broad line region each peak originates. Credit: NOIRLab/NSF/AURA/P. Marenfeld
Nothing can evoke an existential perspective-spiral quite like looking at an image of a galaxy. At first glance, these sublime structures may appear rather serene. But in fact the center of many galaxies is a turbulent environment containing an actively feeding supermassive black hole.

Orbiting these incomprehensibly dense objects are swirling accretion disks of gas and dust, which feed the black hole and emit copious amounts of energy all along the electromagnetic spectrum—from high-energy gamma rays and X-rays, through visible light, to infrared and radio waves.
Studying accretion disks can enhance astronomers' understanding of black holes and the evolution of their host galaxies. Most accretion disks, however, are impossible to directly image because of their extreme distances and relatively small sizes. Instead, astronomers use the spectra of light emitted from within the disk to characterize its size and behavior.
Using this approach, astronomers using the Gemini North telescope, one half of the International Gemini Observatory, operated by NSF's NOIRLab, have made the first detection ever of two near-infrared emission lines in the accretion disk of the galaxy III Zw 002, placing a new limit on the size of these magnificent structures.
To understand these observations, let's first lay some groundwork by discussing what emission lines are and what they tell us about the regions around supermassive black holes.
Emission lines result when an atom in an excited state drops to a lower energy level, releasing light in the process. Since every atom has a unique set of energy levels, the emitted light has a discrete wavelength that acts like a fingerprint identifying its origin. Emission lines commonly appear in spectra as thin, sharp spikes.
But in the swirling vortex of an accretion disk, where the excited gas is under the supermassive black hole's gravitational influence and moving at speeds of thousands of kilometers per second, the emission lines broaden into shallower peaks. The region of the accretion disk where these lines originate is called the broad line region.
As stated earlier, accretion disks are exceedingly difficult to image directly, with only two sources having been imaged thanks to the high angular-resolution capability of the Event Horizon Telescope. So, barring access to a global network of radio telescopes, how do astronomers know when a supermassive black hole has a disk around it? It turns out that evidence of an accretion disk can be found in a specific pattern of the broad emission lines called a double-peaked profile.

Because the disk is rotating, the gas on one side is moving away from the observer, while the gas on the other side is moving towards the observer. These relative motions stretch and squeeze emission lines to longer and shorter wavelengths respectively. What results is a broadened line with two distinct peaks, one originating from each side of the rapidly spinning disk.
These double-peaked profiles are a rare phenomenon since their occurrence is limited to sources that can be observed nearly face-on. In the few sources in which it has been observed, the double peak has been found in the H-alpha and H-beta lines—two emission lines from hydrogen atoms that appear in the visible wavelength range.
Originating from the inner region of the broad line region near the supermassive black hole, these lines provide no evidence about how big the accretion disk is in its entirety. But recent observations in the near-infrared have revealed a region of the outer broad line region that has never been seen before.
Denimara Dias dos Santos, a Ph.D. student at the Instituto Nacional de Pesquisas Espaciais in Brazil and lead author of the paper, in collaboration with Alberto Rodriguez-Ardila, Swayamtrupta Panda and Murilo Marinello, researchers at the Laboratório Nacional de Astrofísica in Brazil, has made the first unambiguous detection of two near-infrared double-peaked profiles in the broad line region of III Zw 002.
The Paschen-alpha (hydrogen) line originates in the inner region of the broad line region, and the O I (neutral oxygen) line originates in the outskirts of the broad line region, a region that has never been observed before. These are the first double-peaked profiles to be found in the near-infrared, and they emerged unexpectedly during observations with the Gemini Near-Infrared Spectrograph (GNIRS).
2003 observations of III Zw 002 in the visible revealed evidence of an accretion disk, and a 2012 study found similar results. In 2021, Rodriguez-Ardila and his team set out to supplement these findings with observations in the near-infrared using GNIRS, which is capable of observing the entire near-infrared spectrum (800–2500 nanometers) all in one go.
Other instruments require the user to switch between multiple filters to cover the same range, which can be time consuming and can potentially introduce uncertainty as atmospheric conditions and calibrations change between observations.
Because GNIRS is capable of making simultaneous observations across multiple bands of light, the team was able to capture a single clean, consistently calibrated spectrum in which multiple double-peaked profiles were revealed. "We didn't know previously that III Zw 002 had this double peaked profile, but when we reduced the data we saw the double peak very clearly," said Rodriguez-Ardila. "In fact, we reduced the data many times thinking it could be a mistake, but every time we saw the same exciting result."
These observations not only confirm the theorized presence of an accretion disk, but also advance astronomer's understanding of the broad line region.
"For the first time, the detection of such double peaked profiles puts firm constraints on the geometry of a region that is otherwise not possible to resolve," said Rodriguez-Ardila. "And we now have clear evidence of the feeding process and the inner structure of an active galaxy."
By comparing these observations with existing disk models, the team was able to extract parameters that provide a clearer picture of III Zw 002's supermassive black hole and broad line region.
The model indicates that the Paschen-alpha line originates at a radius of 16.77 light-days (the distance light travels in one Earth day as measured from the supermassive black hole), and the O I line originates at a radius of 18.86 light-days. It also predicts that the outer radius of the broad line region is 52.43 light-days. The model also indicates that III Zw 002's broad line region has an inclination angle of 18 degrees with respect to observers on Earth, and the supermassive black hole at its center is 400–900 million times the mass of our sun.
"This discovery gives us valuable insights into the structure and behavior of the broad line region in this particular galaxy, shedding light on the fascinating phenomena happening around supermassive black holes in active galaxies," said Rodriguez-Ardila.
Following this discovery, Dias dos Santos, Rodriguez-Ardila, Panda and Marinello are now monitoring III Zw 002, as its accretion disk is expected to follow a precession pattern around the supermassive black hole. They want to see how the line profiles change with time, since precession causes different intensities in the blue and red peaks. So far, the model remains consistent with their observations. These results also open up the possibility of using near-infrared detection to study other AGNs.
The work is published in The Astrophysical Journal Letters.
 

dalvinder45

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Jul 22, 2023
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ISRO said the rover Chandrayaan-3 mission's rover 'Pragyan' came across a four-metre diameter crater ahead of its location on August 27 on lunar surface before it was commanded to retrace its path.
28rover.jpg

IMAGE: ISRO tweets, 'Pragyan rover roams around Shiv Shakti Point in pursuit of lunar secrets at the South Pole'. Photograph: ANI Photo
It is now safely heading on a new path, the Bengaluru-headquartered national space agency said in a social media post.
 

dalvinder45

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Jul 22, 2023
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he Laser-Induced Breakdown Spectroscope instrument onboard 'Pragyan' rover of Chandrayaan-3 has unambiguously confirmed the presence of sulphur on the lunar surface near south pole, through first-ever in-situ measurements, Indian Space Research Organisation (ISRO) said on Tuesday.
29moon.jpg


IMAGE: The Rover came across a 4-metre diameter crater positioned 3 meters ahead of its location on August 27, 2023. Photograph: ANI Photo
It also said the instrument also detected aluminium, calcium, iron, chromium, titanium, manganese, silicon and oxygen, as expected.

'The Laser-Induced Breakdown Spectroscopy (LIBS) instrument onboard Chandrayaan-3 Rover has made the first-ever in-situ measurements on the elemental composition of the lunar surface near the south pole. These in-situ measurements confirm the presence of Sulphur (S) in the region unambiguously, something that was not feasible by the instruments onboard the orbiters,' the space agency said in a statement.

Pragyan comes across huge crater on Moon, goes back


Pragyan comes across huge crater on Moon, goes back​



Hot Moon! Vikram records 70-degree temperature


Hot Moon! Vikram records 70-degree temperature​


According to ISRO, LIBS is a scientific technique that analyses the composition of materials by exposing them to intense laser pulses.

'A high-energy laser pulse is focused onto the surface of a material, such as a rock or soil. The laser pulse generates an extremely hot and localised plasma.

'The collected plasma light is spectrally resolved and detected by detectors such as Charge Coupled Devices. Since each element emits a characteristic set of wavelengths of light when it's in a plasma state, the elemental composition of the material is determined,' it said.

Preliminary analyses have unveiled the presence of Aluminum (Al), Sulphur (S), Calcium (Ca), Iron (Fe), Chromium (Cr), and Titanium (Ti) on the lunar surface.

Further measurements have revealed the presence of manganese (Mn), silicon (Si), and oxygen (O), it said.

"Thorough investigation regarding the presence of Hydrogen is underway," ISRO said.

LIBS instrument is developed at the Laboratory for Electro-Optics Systems at Peenya Industrial Estate, Bengaluru where the first India satellite was fabricated in 1975.

India on August 23 scripted history as ISRO's ambitious third Moon mission Chandrayaan-3's Lander Module (LM) touched down on the lunar surface, making it only the fourth country to accomplish the feat, and first to reach the uncharted south pole of Earth's only natural satellite.
 
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