'Acceleration without fuel:' Revolutionary superconducting thruster harnesses Earth's magnetic field in 1st orbital test

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New Zealand company Zenno Astronautics has tested the first of its kind thruster based on superconducting magnets to maintain the position of a satellite in space.Superconducting magnets can convert solar energy directly into momentum in space and provide a source of acceleration that needs no fuel, but until recently, the technology was too large and complex to fit on a satellite. That's no longer the case. Zenno Astronautics, a spin-off from the University of Auckland, has flown its new "Supertorquer" system on the Mira satellite built by California-based start-up Impulse Space. The tests began shortly after Mira's launch in November last year aboard the SpaceX Transporter 12 mission and saw the shoebox-size device perform with flying colors, Zenno Astronautics CEO and founder Max Arshavsky, told Space.com. "It's a technology that allows a spacecraft to not tumble violently in space and point in the right direction," Arshavsky said. "The unit has multiple super-conducting magnets that are positioned in different axes. When we power up the magnets, they generate a magnetic field, which interacts with Earth's magnetic field, and because we can control the magnetic field on the satellite, we can control the way in which it turns with respect to Earth."Superconducting magnets are made of coils of superconducting wire that have zero electrical resistance and can therefore conduct much larger currents than normal wires. That larger current translates into a greater magnetic force. There is, however, a catch: Superconducting materials need to be cooled to extremely low temperatures to gain their wonder properties. In labs on Earth, the cooling requires tanks of cryogenic liquids like liquid helium or liquid nitrogen. Those cannot be used aboard a satellite. Instead the system must expel all heat from its surroundings into outer space."The magnets need to operate at minus 200 degrees Celsius [-328 degrees Fahrenheit]," Arshavsky said. "But even though space is cold, the satellite is actually not. It's about 20 degrees C, pretty warm, because we are pointing at the sun."The unit housing the superconducting magnets is wrapped in layers of insulation and fitted with a heat pump that removes all the excess heat from the system. Every time the satellite needs a push, the superconducting coils power up, drawing energy from a battery charged by the satellite's solar panels."It's converting solar energy straight into useful work," Arshavsky said. "Energy is the one thing that is abundant in space, and you can use it to energize the magnet to create a magnetic acceleration device. It gives you acceleration without fuel."Zenno Supertorquer is set to become the world’s first superconducting product for space. It is scheduled for launch on SpaceX Transporter-15, currently targeting November 28, 2025 (PT). pic.twitter.com/aw2we9caxGNovember 27, 2025In the future, Zenno Astronautics plans to launch larger systems that could enable spacecraft to dock in space or conduct close proximity operations using just the power of their solar-powered superconducting magnets. Arshavsky envisions powerful magnets that could, in the future, propel spacecraft on missions to the moon and Mars using only solar power."Once you have super-conducting technology available in space, you can then create very strong magnetic fields and you can use them for various use cases," he said. "You can accelerate things in space very fast or change the trajectory of a satellite completely without fuel.""We are essentially looking to remove all reliance on Earth's resources so that we can build a sustainable industry in space," Arshavsky said.Powerful superconducting magnets could also provide a solution to the problem of cancer-causing cosmic radiation that explorers will encounter during stays on the moon or trips deeper into space."When we go to space, we get hurt by radiation, and these superconducting magnets can create umbrellas of magnetic fields around the spacecraft to protect the interior," said Arshavsky. "So we can shield people in space from that radiation."Zenno Astronautics company plans to fly a larger demonstrator on an undisclosed mission later this year.