Indian-Origin Scientist In UK Gets World's First Far-Side Moon Dust From China

A UK-based Indian-origin scientist has received a portion of the world's first lunar soil samples collected from the Moon's far side, courtesy of China's Chang'e-6 mission, according to BBC. This historic achievement marks the first time any nation has retrieved material from the Moon's far side, a region previously unexplored due to communication challenges.
According to BBC, Professor Mahesh Anand is the only scientist in the UK to have been loaned this extremely rare material, which he describes as "more precious than gold dust".
"Nobody in the world had access to China's samples, so this is a great honour and a huge privilege," he says.
After grinding and zapping the dust with lasers, Professor Anand's team hopes to answer fundamental questions about how the Moon formed and about the early years of planet Earth.
Inside the grains of dust could be evidence to back up scientists' theory that the Moon was made from the debris thrown out when Earth struck a Mars-sized planet 4.5 billion years ago.
China collected the rocks on its Chang'e 5 space mission in 2020 when it landed on a volcanic area called Mons Rumker.
A robotic arm drilled into the soil to collect 2kg of material, which was brought back to Earth in a capsule which landed in Inner Mongolia, as per BBC report.
The Chang'e-6 mission successfully returned approximately 1.9 kilograms of lunar material in June 2024. These samples are being distributed to international researchers for analysis. Notably, the lunar soil exhibits distinct characteristics compared to previous samples, including a more porous structure and differing mineral compositions, such as higher plagioclase and lower olivine content.
This collaboration underscores China's commitment to international scientific cooperation in space exploration. The involvement of an Indian-origin scientist in the UK highlights the global nature of lunar research and the shared pursuit of understanding our celestial neighbour.

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Time of India

an hour ago

• Time of India

Python gulps 2 birds, rests in poultry shed

Navi Mumbai: A 10 ft long Indian rock python, which slithered into a poultry shed near A forest in Vangani village of Mhasala, Raigad, was released into the wild Thursday. The python gobbled up two chickens and killed another bird at the shed, after which it became lethargic to digest the ingested food. Wildlife researcher Shantanu Kuveskar, sid the presence of the large snake caused panic among the workers. —Vijay Singh

Time of India

3 hours ago

• Time of India

Axiom-4 astronauts to study insulin behaviour in microgravity, revolutionise diabetes treatment

New Delhi: Indian astronaut Shubhanshu Shukla's Axiom-4 mission to the International Space Station (ISS) is set to offer a ray of hope for diabetics to travel to space, as a UAE-based healthcare provider is conducting an experiment on how glucose behaves in microgravity part of the "Suite Ride" experiment planned by Burjeel Holdings and Axiom Space, some astronauts of the Axiom-4 mission will be wearing continuous glucose monitors during their 14-day stay on board the orbital lab. The studies of the behaviour of glucose and insulin in microgravity conditions will help scientists develop wearable technologies for astronauts and patients who are bedridden or have limited mobility due to illnesses such as paralysis. "We are trying just to see if there is any change or fluctuation to the blood-sugar levels while they are in space," Mohammad Fityan, chief medical officer at Burjeel Holdings, Abu Dhabi, told PTI. The astronauts will also carry insulin pens in refrigerated and ambient temperatures to examine how the molecules respond to microgravity conditions. "We are hoping that if we learn something about the metabolism or the effect, we will bring some information and we can do something for our patients on Earth," Fityan said. Currently, the National Aeronautics and Space Administration (NASA) does not allow insulin-dependent diabetics to travel to space. There are no official exclusions for non-insulin-dependent diabetics, but so far, no astronaut with diabetes has travelled to space. "It has the potential to transform the future of space travel for astronauts with insulin-dependent diabetes mellitus (IDDM), a condition historically considered disqualifying for space missions," Fityan said. He said the study will pave the way for several innovative technologies and treatment approaches for developing advanced glucose-monitoring tools optimised for extreme or low-activity environments, improving wearable tech for both astronauts and patients with limited mobility on Earth. It will also help identify new pharmacologic targets by observing how metabolic and hormonal responses change in microgravity, leading to drugs that enhance insulin sensitivity or mimic the benefits of exercise in sedentary individuals. The AI-powered predictive models based on real-time physiologic data in space can be adapted to personalise diabetes care on Earth by forecasting insulin needs or metabolic shifts with higher accuracy. The research will also help develop remote monitoring platforms for continuous metabolic-data capture that could revolutionise diabetes care in underserved or remote areas on Earth as well as in tele-health settings.

Time of India

3 hours ago

• Time of India

India's first epigraphical reference to Halley's comet found in Vijaynagara's 15th-century copper plate; key details inside

Credit: X The discovery of a June 28, 1456 CE, inscription at the Mallikarjuna Swamy Temple in Srisailam, now in Andhra Pradesh, has revealed India's first known mention of Halley's comet on a 15th-century Vijayanagara copper plate inscription. This fascinating discovery has offered a glimpse into the rich astronomical knowledge of Indians even back then. The plate documents a land grant made by the Vijayanagara king Mallikarjuna to a scholar of the Vedas. The interesting part here is that the inscription contains a reference to a brilliant celestial object that is visible in the sky now identified by historians and astronomers as Halley's comet, which was indeed visible at that time. Astronomical alignment with Halley's comet The inscription date in the Indian calendar is śaka 1378, dhātr̥ āṣāḍha ba. 11, which reads exactly to Monday, June 28, 1456 CE. According to astronomical data, Halley's comet was seen visibly and spectacularly during the summer of 1456. It was one of its historically significant apparitions, recorded in various parts of the world, including Europe and Asia. The 1456 sighting of a comet was especially dramatic, and in some places, it was considered a sign. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Erftstadt: GEERS sucht 700 Testhörer für Hörgeräte ohne Zuzahlung GEERS Undo This is in line with the timing and the unusual celestial reference within the copper plate, making the connection. Context and significance This inscription is now considered the earliest attested epigraphic reference to Halley's comet in India, since previous references to comets in early Indian texts, e.g., in the ṛigveda, atharvaveda, and bṛhat saṃhitā, are generic and metaphorical and do not point to actual astronomical occurrences. The inscription is written in the classical Telugu language script, with an inscription in Sanskrit, in the traditional copper plate grant form, which was quite prevalent back then. Mention of the astronomical phenomenon is made along with details of the grant of land, indicating that the phenomena were deemed important enough to be noted within formal, legal, and religious documents. This find is a cornerstone achievement in India's scientific and historical record-keeping. The 1456 copper plate of the Vijaynagar empire is not only the first known epigraphic mention of Halley's comet in India but also presents a window of insight into the cosmos, the history of India, and the social and political life of the era. Apart from suggesting the rich knowledge Indians had, it also suggests that medieval scholars likely tracked cometary cycles more closely than we ever would, hinting at an advanced system of record keeping. Back in those days, observation-based understanding of astronomy in the Vijayanagara era of India is also visible.