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Indian Express
14 minutes ago
- Indian Express
What Shubhanshu Shukla is studying at ISS
Indian Space Research Organisation (ISRO) and Group Captain Shubhanshu Shukla conducted a series of experiments — muscle loss under microgravity, digestion in space, and astronauts' mental well-being — on board the International Space Station (ISS). Shukla, who is a part of the Axiom-4 space mission as part of a joint ISRO-NASA initiative, stepped into the ISS on June 26 with three other astronauts. Axiom Space, in a statement, said, 'Shux (Shukla's call sign) performed operations in the Life Sciences Glovebox (LSG) for the myogenesis study, which could uncover how microgravity contributes to muscle loss.' 'These insights may also translate to improved treatments for muscle-wasting conditions on Earth, including those linked to ageing and immobility,' they added. A video was also filmed by the Shukla targeted at young Indian students discussing how the digestive system adapts to space. The crew on-board documented activities for the Astronaut Mental Health study, contributing to research on understanding well-being in space. 'This project can benefit others on Earth by developing remote technologies for diagnosing and treating mental disorders, particularly for individuals in isolated or challenging environments where access to mental health care is limited,' Axiom Space said. The crew also participated in an experiment designed to advance brain-computer interface technology using a specialised headset that indirectly monitors neural activity by tracking blood flow. This is a part of the PhotonGrav project, which aims to decode brain signals, paving the way for humans to control computer systems using only their thoughts. 'For future space missions, this kind of interface could streamline how astronauts interact with spacecraft systems, especially in high-stress or hands-free scenarios. Back on Earth, the same technology could advance neurorehabilitation and assistive devices, offering new hope for people with mobility or communication challenges,' Axiom Space said.
The Print
an hour ago
- The Print
India needs foreign parts for Tejas. Defence atmanirbharta can't become a weakness
India's pursuit of self-reliance in defence aviation, especially in the field of domestic jet fighter production, is a saga of ambition and innovation. It is also a tale of bureaucratic bungling, lack of accountability, and the absence of inter-department coordination. We tend to make the same mistakes over and over again. Surprisingly, the A tmanirbharta Ayatollahs of social media, otherwise quick to assign monikers like 'Import Bahadur' to any veteran or journalist who makes the case for importing necessary tech until we can make it domestically, have been silent on the decision. Hindustan Aeronautics Limited's decision not to equip the Tejas Mk1A aircraft with the indigenous Uttam AESA radar and Swayam Raksha Kavach electronic warfare suite—made by the Defence Research and Development Organisation—preferring instead the Israeli ELTA systems, has sparked significant debate. For the domestic defence industry, the template remains unchanged: overpromise, underdeliver, blame the delays on external factors, and then accuse the forces of not being supportive of domestic programmes. Different aircraft, same story India was the first Asian country to domestically design and produce a modern jet fighter aircraft. On 24 June 1961, HF-24 Marut undertook its first flight; barely five years after the programme approval and only 14 years after Independence. It was a tremendous achievement. However, what could have been a stupendous base for the development of India's domestic defence aviation industry fizzled out in a damp squib. In 2025, we find ourselves at the cusp of greatness again, in the form of the Light Combat Aircraft (LCA) Tejas programme. The challenges remain the same: financial, technological, institutional, and political. And we're repeating some of the old mistakes. Both HF-24 Marut and the Tejas—its modern successor—aimed to equip the Indian Air Force (IAF) with homegrown combat aircraft. Despite great potential, the former failed to deliver, and the latter is muddling along. Also read: Pakistan suffers violence of its own making. West's refusal to learn is even more tragic Marut vs Tejas The HF-24 Marut, developed by Hindustan Aeronautics Limited (HAL), was a pivotal achievement. A relatively poor Asian country had pulled off an engineering miracle. Led by German designer Kurt Tank and later Dr Raj Mahindra, it was an ambitious programme. Incidentally, Tank was the lead designer of the legendary Focke-Wulf 190, the German single-engine fighter of World War 2. India's recruitment of Tank in the 1950s was a strategic effort driven by Prime Minister Nehru and shepherded by defence minister VK Krishna Menon. At the time, Tank was working on the design of the FMA IAe 33 Pulqui II, one of Latin America's first jet fighters. But political instability and economic challenges under Juan Perón's regime made Tank consider other opportunities. India capitalised on the development, offering him a stable job and an ambitious project. The IAF's air staff quality requirements (ASQR) were ambitious too. It wanted Marut to achieve 1.5 Mach initially and 2 Mach eventually. It was intended to be a supersonic, multi-role fighter for ground attack as well as air superiority roles, with a combat radius of at least 500 miles. The programme tasted initial success, and the first production aircraft was delivered to the IAF on 1 April 1967. The first challenge was also felt early on, as it was observed that the aircraft was grossly underpowered. The Bristol Siddeley Orpheus 703 engine could provide only 4,850 lbs of thrust, barely adequate to reach 0.95 Mach, well below the intended target. The aircraft could not achieve supersonic speed. This deficiency in the engine was well known, but it happened to be the only one readily available. Orpheus 703 was also used in the British aircraft Folland Gnat and was being license-produced by HAL in India. Tank was not happy with this selection and reluctantly agreed to its use as an interim solution due to India's limited technological and financial resources. Tank wanted an uprated Bristol BOr12 Orpheus afterburning turbojet engine that could produce 8,150 lbs of thrust, to power his twin-engine, swept-wing fighter. Unfortunately, New Delhi was unwilling to invest £13 million in the customised engine. Alternatives were few and far between. Engine options from Russia, the US, Britain, and even Egypt were considered, but the geopolitical situation for India at the time was precarious. The recent war with China, disappointment from the Non-Alignment Movement (NAM), increasing differences with the US, and growing closeness to the USSR—all these developments played a role. The options were unsuitable either financially, technically or geopolitically. Eventually, IAF was forced to make do with a non-afterburning Orpheus 703 engine on the HF 24. By the time it entered service in 1967, Marut was considered close to obsolescence. It could not keep up with supersonic fighters of that era—Indian MiG-21s or Pakistani F-104 Starfighters. The IAF shelved plans for upgrading Marut with radar and air-to-air missile capabilities, and relegated the jet to ground attack roles. Proposals for advanced variants like the HF-71 and HF-72 were abandoned, and the programme ended in the 1980s after producing only 147 aircraft. In comparison, the LCA Tejas has had a long timeline from conception to deployment. Initiated in 1983, the programme achieved its first flight only in January 2001. It took another 18 years to achieve Final Operational Clearance (FOC). The first squadron was raised on 27 May 2020 with only four serial production FOC aircraft. So far, 38 aircraft have been delivered to the IAF, out of the 83 on order. Plans for an additional 97 Mk1A/B and nearly 200 LCA Mk2 are at various stages of approvals. The first batch of LCA Mk1A was to be delivered to the IAF in March 2024; none has been delivered to date. Also read: Trump has driven up NATO's defence spending. Why that's good for India Achilles' heel Like the Marut, the aeroengine is proving to be the Achilles' heel for LCA. For the Marut, several engine options were explored by HAL. Besides evaluating the Soviet-made Klimov K-7 and RD-9F engines, the option to collaborate with Egypt on the development of the EL-300 engine was also considered. The Soviet engines were found incompatible with the Marut's airframe, and Egypt gave up on EL-300 after the 1967 Arab-Israeli War. The proposal from Rolls-Royce to further develop the Orpheus for the Marut was rejected by the Indian government, likely due to cost and political considerations. The Gas Turbine Research Establishment (GTRE), a lab under India's Defence Research and Development Organisation, was also tasked with enhancing the performance of the Orpheus 703 engine. The GTRE attempted to build an afterburning (reheated) version of the Orpheus 703. However, the programme failed to deliver the desired outcomes. On similar lines, the Tejas was intended to be powered by the indigenous Kaveri engine, but its development faced setbacks. Unable to meet performance targets of weight and thrust, the Kaveri was sidelined in favour of imported engines. The GE F404 engine, meant only as a stopgap arrangement for the early variants, has now become the mainstay. At the moment, India is incapable of avoiding reliance on foreign engines. Supply delays from GE are causing inordinate delays in the production of LCA Mk1A. Hopefully, lessons will be learned and HAL will secure the supplies of GE 404 and GE 414 engines in sufficient numbers for the upcoming production targets. Another issue that raises questions on our ability to absorb technology has been in the field of engine manufacturing. Despite license-producing various jet engines such as Orpheus 703, Tumansky R-25, Rolls-Royce Adour, AL-31FP, and AL-55I, we have not been able to master the technology adequately enough to fix the flaws in Kaveri. Also read: Chinese J-20 isn't just a fighter jet—it's a signal to US, Japan and India Operational performance Despite bad programme management, both Tejas and Marut turned out to be reasonably good in operations. The HF-24 Marut was operational in three IAF squadrons in 1971: Number 10 (Winged Daggers), 31 (Lions), and 220 (Desert Tigers). These squadrons saw significant action during the 1971 India-Pakistan War, flying about 200 missions. Three aircraft were lost in the air, and one was lost on the ground. Squadron Leader KK Bakshi, while flying a Marut, shot down a Pakistani F-86 Sabre on 7 December. Marut was much liked by the pilots, as it had a spacious and well-laid-out cockpit, and was easy to handle at low levels. Since it was built tough, it could survive several hits from ground fire. On account of two engines with redundant systems, it also had better survivability against bird ingestion and system failure. The details of LCA's performance in Operation Sindoor are not available in the open domain. However, Tejas has consistently performed well in air exercises like Gagan Shakti, fire power demonstrations, Akraman, Trishul, and so on. The most stellar thing about LCA Tejas has been its flight safety record in the development phase. It did not suffer even a single catastrophic failure in the testing and development phase, which is unheard of in the case of a single-engine fighter programme anywhere in the world. Also read: Asim Munir is playing good jihadi-bad jihadi game. Suicide bombing shows he's failing IAF's role The IAF is often accused of lacking enthusiasm for domestic programmes and placing greater reliance on imported equipment. This presumption stems from ignorance about how the IAF draws out its ASQRs and how the defence ministry sanctions capital procurements. The IAF lists out quality requirements (QRs) based on existing and evolving aerial threats. On the other hand, the decision about whether to procure particular equipment (or not) is made by the government. Whether to source this equipment from the local market or procure it globally is another decision the government makes. It has the final say on ASQRs as well, and has the right to modify QRs to enable domestic industry participation. Once the equipment and vendor are finalised, the quantity and the delivery dates are inked in the contract. The threats are not static, and the enemy has a vote. As the delivery timelines slip by, the threats evolve on account of the emergence of new technology and new acquisitions by the adversary. The IAF would want the equipment to be the latest on the day it is fielded in an operational unit and not on the day it was ordered. The threat is not static—the ASQR shouldn't be either. The Marut faced deficiencies in operational performance due to engine issues, while the Tejas took nearly 20 years from first flight to the FOC. For the Marut, the IAF's initial excitement waned due to its subsonic performance and engine limitations, leading to a preference for the Jaguar. Tejas faces similar IAF scepticism, with concerns about its performance, delivery delays, and the reliance on foreign components. There is also a growing concern that with China making great progress in the field of aeroengines, aerial weapons, and fighter aircraft development, future variants of Tejas could be obsolete even before they enter squadron service. China, the primary adversary for India, has fielded two variants of fifth-generation fighters, J-20 and J-35. It also has reportedly fast-tracked sixth-generation fighters such as J-36 and J-50. There are reports that Pakistan will soon be receiving J-35 fighters from China. In that environment, Tejas Mk1A and Tejas Mk2, which are 4.5 generation aircraft and are yet to enter squadron service in the IAF, would find it difficult to hold ground in an aerial encounter. The threats are evolving rapidly, so the demands from the services would evolve too. It would be foolhardy to assume that the IAF would not revise ASQRs as the deliveries are delayed and newer, more potent threats emerge. The bottom line remains unchanged. The onus of equipping the IAF and other services is on the government. Delays cause capability degradation, therefore the government must seek accountability from weapon suppliers, whether foreign or domestic. Atmanirbharta is our strength—it should not be allowed to become our vulnerability. Group Captain Ajay Ahlawat is a retired IAF fighter pilot. He tweets @Ahlawat2012. Views are personal. (Edited by Prasanna Bachchhav)
India.com
an hour ago
- India.com
ISRO set to make HISTORY again, prepares to launch 'Baahubali' rocket, to build its own space station by..., send astronauts to...
ISRO set to make HISTORY again, prepares to launch 'Baahubali' rocket, to build its own space station by..., send astronauts to... ISRO Chairman Dr. V. Narayanan has said that India is building a super-powerful rocket that will be able to carry satellites weighing up to 75,000 kilograms into low Earth orbit. This rocket will take around 27 days to complete the mission. It will be India's most powerful rocket ever. He shared this update on Monday at the Uttarakhand Chief Minister's residence in Dehradun, during a special space conference focused on Himalayan states. India's space plans for the future Dr. Narayanan said that India aims to set up its own space station by the year 2030, and by 2040, the country plans to send astronauts to the Moon. He also gave a quick look at India's space journey: India launched its first rocket in 1963 By 1975, the country had no satellites of its own Today, India has 131 satellites in space These satellites help with many things i.e. from TV broadcasts to weather forecasts, and much more. He added that ISRO is also working hard on the Human Space Program, which means India could soon send more astronauts into space on its own. India has set many records: ISRO Chief Narayanan ISRO Chairman Dr. V. Narayanan shared how far India has come in space science. He said there was a time when India's rockets were carried on bicycles, but today, the country holds several world records in space. Here are some key achievements he mentioned: India was the first country to discover water molecules on the Moon. India became the first nation to land on the Moon's South Pole. With the Aditya L-1 mission, India is now the fourth country studying the Sun. India entered Mars orbit on its very first attempt, making it the fourth country to do so. He added that under the leadership of Prime Minister Narendra Modi, India is reaching new milestones in space. He expressed confidence that by 2047, India will become a fully developed nation. Space data is helping in daily life: Dr. Prakash Chauhan Dr. Prakash Chauhan, Director of the National Remote Sensing Centre (NRSC), also spoke at the conference. He explained how space data is now used in many parts of daily life. Satellites give us useful updates, not just GPS navigation but also important environmental data. In Uttarakhand, satellite data was used to digitize livestock records. During the Rishiganga-Chamoli disaster, satellite images helped map the area, and that data was later used in national policy planning. This information also supported Post-Disaster Need Assessment (PDNA) reports. He said satellites are playing a big role in forest protection and wildfire monitoring, mapping of disaster-prone areas, glacier lake monitoring, flood and cloudburst forecasts Dr. Chauhan concluded that space technology is deeply changing how we live and prepare for natural disasters, especially in states like Uttarakhand.
