If we achieve advanced nuclear, antimatter propulsion or other advance propulsion it would be possible to achieve near constant acceleration. This would enable travel times to Mars in the 3-8 day ...

First plasma” has been achieved by the Sunbird exhaust test system, marking a major step toward a direct fusion drive ...

The space agency is investing in the development of a propulsion system that uses nuclear power to create plasma bursts. Reading time 2 minutes The future of space travel depends on our ability to ...

Plasma jet engines promise a future of fuel-free, electrically driven flight, but the technology faces a stubborn obstacle ...

UK-based Pulsar Fusion has achieved its first plasma in the exhaust system of its ...

A new means of propelling spacecraft being developed at the University of Washington could dramatically cut the time needed for astronauts to travel to and from Mars and could make humans a permanent ...

A UK startup successfully ignited plasma inside a nuclear fusion rocket prototype, marking progress toward advanced propulsion for future deep-space missions.

UK based space propulsion company developing advanced propulsion technologies for satellite and deep-space markets, Pulsar ...

Rocket Star Inc. has made a significant leap in space propulsion technology with the introduction of the Firear Fusion Drive. This innovative system, which combines plasma thruster technology with ...

Tsangs Group is pleased to announce that we have invested in Ad Astra Rocket Company (“Ad Astra”), known for the project of Variable Specific Impulse Magnetoplasma Rocket (“VASIMR®”) space engine.

Helicon plasma propulsion is emerging as a promising branch of electric space propulsion, employing helicon waves to generate high‐density plasmas which are then accelerated through a magnetic nozzle.