Author: Martina Elia Vitoloni | DCL Candidate Air and Space Law, McGill University
Celestial bodies like the moon contain valuable resources, such as lunar regolith — also known as moon dust — and helium-3. These resources could serve a range of applications, including making rocket propellant and generating energy to sustaining long missions, bringing benefits in space and on Earth.
The first objective on this journey is being able to collect lunar regolith. One company taking up this challenge is ispace, a Japanese space exploration company ispace that signed a contract with NASA in 2020 for the collection and transfer of ownership of lunar regolith.
The company recently attempted to land its RESILIENCE lunar lander, but the mission was ultimately unsuccessful. Still, this endeavour marked a significant move toward the commercialization of space resources.
These circumstances give rise to a fundamental question: what are the legal rules governing the exploitation of space resources? The answer is both simple and complex, as there is a mix of international agreements and evolving regulations to consider.
The article has a breakdown of the laws and further context
It’s not. He-3 is supposed to be maybe one day used in fusion power, but we’re talking about tons of this stuff. Not only scale is off, also He-3 burning requires much higher temperature than D-T fusion, and this is just around in next 20 years pinky promise
People who think that it’s a big deal also take Ray Kurzweil seriously, it’s scifi noise
In practical terms, when DHS wanted to get He-3 neutron sensors, they bought out entire global supply for multiple years, for an application where only grams are needed and it’s not used up. It’s made from decay of tritium currently and it’d be less energy intensive to make it the usual way