The Ad Astra Rocket Company and The Space Nuclear Power Corporation have just signed a strategic partnership to advance high-power Nuclear Electric Propulsion technology to enable fast and reliable human and robotic missions to Mars and beyond. This alliance builds on
Ad Astra’s has twenty-years of experience with the Variable Specific Impulse Magnetoplasma Rocket. SpaceNukes’ Kilopower reactor technology was developed over the last decade under the joint NASA/NNSA/LANL “KRUSTY” ground test program and the current Space Force JETSON program. The strategic alliance of the two companies is based on the VASIMR and Kilopower technologies.
Traditional electric spacecraft propulsion technologies use electrostatic acceleration and operate at relatively low power levels. In contrast, VASIMR®’s electromagnetic architecture scales more favorably to higher power levels, its electrodeless design leads to long operating life, and its fundamental physics make it “propellant-agnostic” which means that it is able to use a variety of abundant and inexpensive propellants. Kilopower’s high-temperature capability, launch safety characteristics, and simple adaptability to high powers make it an ideal nuclear reactor to pair with an electric propulsion system. The integrated nuclear power and electric propulsion system brings performance benefits, including commonality in high-temperature heat rejection and direct coupling of the reactor power to the VASIMR®’s RF system.
The Memorandum of Understanding between Ad Astra and SpaceNukes details a shared vision and passion for developing and demonstrating NEP technology and establishes a framework by which both companies will jointly pursue technical and business development. The VASIMR® and Kilopower have been pioneered over many years and are now ready to be integrated. The partnership intends to demonstrate high-power NEP in a flight program by the end of the decade and commercialize the technology in the 2030s.
Dr. David Poston is the CTO of SpaceNukes. He said, “Nuclear Electric Propulsion will achieve game-changing performance via stepwise technology evolution. Our plan will begin with a 100 kW plus NEP system as a steppingstone to a less than 5 kg per kW multi-megawatt NEP system with the capability to reduce the round-trip human transit time to Mars from more than a year to a few months.”
Dr. Franklin Chang Díaz is Ad Astra’s CEO. He added, “In 1958, sailing from the north Pacific, the USS Nautilus dove just north of Utqiagvik, Alaska, and surfaced, 96 hours later northeast of Greenland. The voyage under the North Pole, hitherto impossible by a conventional submarine, was enabled by nuclear power. High-power NEP will enable ‘The Nautilus Paradigm’ to extend into space, opening the entire solar system to human exploration. We are proud, through this alliance, to help lay the groundwork for this achievement.”
High-power NEP offers many advantages over traditional spacecraft propulsion methods. Electric propulsion systems are significantly more efficient, using ten to a hundred times less propellant than chemical rockets. With a high specific-power nuclear reactor, NEP systems can supply the necessary power for rapid transportation around the solar system. NEP will allow human-timescale missions to Mars, Jupiter, and beyond without propellant depots, bases, or sunlight.
Space Nuclear Power Corporation
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