Universe Today | Matt Williams | 2023 May 10
In a little over four years, NASA’s Dragonfly mission will launch into space and begin its long journey towards Titan, Saturn’s largest moon. As part of the New Frontiers program, this quadcopter will explore Titan’s atmosphere, surface, and methane lakes for possible indications of life (aka. biosignatures). This will commence in 2034, with a science phase lasting for three years and three and a half months. The robotic explorer will rely on a nuclear battery – a Multi-Mission Radioisotope Thermal Generator (MMRTG) – to ensure its longevity.
But what if Dragonfly were equipped with a next-generation fusion power system? In a recent mission study paper, a team of researchers from Princeton Satellite Systems demonstrated how a Direct Fusion Drive (DFD) could greatly enhance a mission to Titan. This New Jersey-based aerospace company is developing fusion systems that rely on the Princeton Field-Reversed Configuration (PFRC). This research could lead to compact fusion reactors that could lead to rapid transits, longer-duration missions, and miniature nuclear reactors here on Earth. ...
In a previous study, an international research team proposed how a spacecraft equipped with a 2-megawatt (MW) DFD could transport a 1000 kg (2200 lbs) payload to Titan in less than 2.6 years (~31 months). This is over twice the mass of the Dragonfly mission, which is (relatively speaking) a featherweight by comparison – 450 kg (990 lbs). A transit time of 2.6 years is also significantly less than the seven years the Dragonfly’s spacecraft will take to reach Titan. ...
Nuclear Fusion Powered Titan Aircraft ~ Michael Paluszek et al
- Acta Astronautica (online 25 Apr 2023) DOI: 10.1016/j.actaastro.2023.04.029