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A group of physicists at Massachusetts Institute of Technology (MIT) recently achieved a feat that could pave the way for practical carbon-free power. The achievement was three years in the making . It is a result of intensive research and design work, project leaders say. For the first time, researchers built a large high-temperature superconducting electromagnet that can reach a field strength of 20 tesla — the most powerful magnetic field ever created. This has removed a key hurdle in the generation of clean fusion power, making it possible to build a fusion power plant that can produce more energy than it consumes.

Fusion energy, which powers the Sun, involves two small atoms merging together to make a larger one. No solid material can withstand the temperatures required for it. So, what’s needed is a way to capture and contain something as hot as the Sun’s power source by suspending it in a way that does not come into contact with anything solid. Powerful electromagnetic fields like the one created by MIT researchers can do that job, as per researchers.

These electromagnets could enable building simpler, more compact fusion reactors. The technology can lead to construction of inexpensive and carbon-free power plants, a major factor in curbing the effects of climate change, project leaders at MIT and startup company Commonwealth Fusion Systems (CFS) said.

Maria Zuber, MIT’s vice-president for research, said fusion in a lot of ways is the ultimate clean energy source. The fuel for fusion energy comes from water — a nearly unlimited resource. Also, the amount of power available is “really game-changing.”

Demonstration fusion in a lab has been pursued for long by several researchers with limited success. Developing the new magnet was one of the greatest hurdles. Now that the technology has been successfully demonstrated, the MIT-CFS collaboration is on track to build the world’s first fusion device that can produce more energy than it consumes. That device, called SPARC, is likely to be ready in 2025.

Dennis Whyte, Director, Plasma Science and Fusion Centre at MIT, said there are many challenges to making fusion happen. But once the technology is proven, Whyte saud that this could be a fundamentally new “inexhaustible” source of energy.

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Chandrayaan-4 Mission Gets Approval, Will Return to Earth This Time

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September 19, 2024

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Chandrayaan-4 Mission Gets Approval, Will Return to Earth This Time

Chandrayaan-4 mission has received approval from the Union Cabinet, led by Prime Minister Narendra Modi, on Wednesday. This marks another significant milestone in India’s lunar exploration efforts. Unlike previous missions, Chandrayaan-4 will not only aim for a successful landing on the Moon but will also focus on returning to Earth. This mission will demonstrate critical technologies that will allow for lunar samples to be collected, brought back to Earth, and studied. It represents an essential leap toward India’s long-term goal of landing on the Moon with humans by 2040.

Chandrayaan-4 to Develop Return Technologies

Chandrayaan-4 follows the successful Chandrayaan-3 mission and aims to further advance India’s capabilities in space. The mission will focus on developing technologies essential for docking, undocking, landing, and safe return from the Moon. Collecting lunar samples will also be a key feature, as India moves closer to a full-scale manned mission in the coming decades. The government’s vision includes an Indian Space Station by 2035, followed by human landings on the Moon by 2040.

Mission Details and Industry Involvement

The mission will be completed within 36 months of approval, with ISRO leading the development and launch. It will involve participation from both industry and academia. A budget of ₹2104.06 crore has been allocated for spacecraft development, launch vehicle missions, and deep space support.

This includes costs for special tests and design validation. High employment potential is expected in associated sectors due to this mission.

Aiming for Self-Sufficiency in Space Technologies

Chandrayaan-4 is set to make India self-reliant in crucial space technologies, helping the nation prepare for future manned missions and lunar explorations. The mission will also involve science meets and workshops to include Indian academia and ensure significant contributions to the analysis of lunar samples.

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Ancient Barracks Unearthed With Egyptian Pharaoh Inscribed Sword

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September 19, 2024

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Ancient Barracks Unearthed With Egyptian Pharaoh Inscribed Sword

A recent excavation in Egypt has uncovered a 3,200-year-old military barracks containing a treasure trove of ancient artefacts, including a sword inscribed with the name of Pharaoh Ramesses II. This discovery sheds light on Egypt’s military operations during Ramesses II’s reign, a time when threats from the Libyans were growing. The barracks also contained storerooms for grain, ovens for baking, and pottery filled with animal bones, including fish. Additionally, archaeologists found cow burials at the site, leading experts to suggest these animals were used for food.

Discovery of Bronze Sword and Limestone Blocks

Among the most significant finds was a bronze sword inscribed with Ramesses II’s name, discovered in a small room near what might have been a defensive position. According to Ahmed El Kharadly, an archaeologist with the Egyptian Ministry of Tourism and Antiquities, this suggests the sword was intended for combat and not merely ceremonial use.

The excavation also uncovered two limestone blocks with hieroglyphic inscriptions, one bearing the name of Ramesses II and the other referring to an official named Bay.

Strategic Military Location

The barracks were located along a military road in the northwest Nile Delta, a strategic point where Egyptian forces could defend against potential invasions from the western desert and the Mediterranean. The location of this site aligns with historical accounts indicating rising tensions between Egypt and Libyan groups.

Professor Anthony Spalinger from the University of Auckland noted that the garrison likely played a key role in controlling access to Egypt during this period.

Significance of the Discovery

Peter Brand, a history professor at the University of Memphis, highlighted the importance of the find for understanding the military strategy of Ramesses II. This well-preserved barracks offers rare insights into the logistics of Egypt’s armed forces at the time.

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A Wobble from Mars? It Could Be Dark Matter, Study Reveals

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September 19, 2024

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A Wobble from Mars? It Could Be Dark Matter, Study Reveals

MIT physicists have put forward a theory that the wobble in Mars’ orbit could be caused by primordial black holes, which may constitute dark matter. According to the research, these tiny black holes formed after the Big Bang and could be passing through our solar system, affecting the orbit of planets like Mars. David Kaiser, a professor of physics at MIT, suggests that the technology we have today could detect this slight shift in Mars’ orbit, which would be a significant breakthrough in understanding dark matter.

The Role of Primordial Black Holes

The study published in the journal Physical Review D suggests that dark matter could be made up of these primordial black holes, which are different from those formed from collapsed stars. These microscopic black holes may exert enough gravitational force to impact planetary orbits.

MIT’s team, including David Kaiser and Sarah Geller, used simulations to predict that these black holes pass through the solar system every decade or so. Their calculations show that even a black hole the size of an asteroid could influence Mars’ orbit.

Detecting the Wobble

Mars is an ideal candidate for this study because of its precise telemetry data. Instruments currently track its position with an accuracy of about 10 centimetres. A passing primordial black hole would cause Mars to deviate slightly from its regular orbit. Sarah Geller, a postdoctoral researcher at the University of California, Santa Cruz, told Phys.org that while Earth and the Moon might also be affected, the data for Mars is clearer, making it easier to detect any potential anomalies.

What This Could Mean for Dark Matter Research

If such a wobble is detected, it could confirm the presence of primordial black holes and offer new insights into dark matter. The research highlights the need for precise observations and collaboration with experts in solar system dynamics to explore this phenomenon further.

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