Strange Power Inc was incorporated in 2025 to develop, produce, market, and operate fusion power plants based on thermonuclear plasma confinement by Magnetized Quark Nuggets (MQNs) — containing strange, up, and down quarks.
The MQN Collaboration is a virtual collective of scientists, explorers, and volunteers from around the world, united by more than two decades of progress on MQN dark matter research. We approach this work with scientific rigor: the hypothesis could be falsified, and we design our experiments accordingly.
From carbon-free fusion energy to interplanetary propulsion, MQN technology — if realised — would represent one of the most consequential scientific achievements in human history.
For terrestrial and space power, and for interplanetary propulsion — building on 23+ years of peer-reviewed MQN dark matter research.
Dark matter has yet to be explained within or without the Standard Model of Particle Physics. It constitutes 85% of the mass of the universe, yet its identity remains one of the biggest open questions in science.
Earth needs more sustainable, economically advantageous, and carbon-neutral sources of energy. Mitigating the ultimate catastrophe — another extinction-level asteroid impact — requires far more capable propulsion for spacecraft.
MQNs meet theoretical requirements for dark matter and are consistent with the Standard Model of Particle Physics — which can guide experimental tests and future applications. Our published models establish formation, stability, mass distribution, and cosmological compatibility.
Non-meteorite impact craters and associated phenomena are consistent with MQN impacts. Proposed experiments to detect radiofrequency emissions from MQNs transiting the magnetosphere — using three satellites — should allow a systematic test of the MQN dark matter hypothesis.
The magnetism of quark nuggets could be the key to an economically advantageous fusion reactor. MQN fusion has no long-lived radioactive waste, requires only minuscule fuel quantities at a time, and automatically shuts down during any off-normal event — making it safer than nuclear fission. It could also drive interplanetary spacecraft for human exploration and colonization.
We are currently engaging magnetite mining and processing companies, fusion power designers, utilities, industrial energy users, and forward‑looking capital partners who see MQN‑enabled fusion and propulsion as a strategic long‑term bet.