@inproceedings{80fe311bd0404421a6dc4ba0c729039d,
title = "The pocket rocket electro-thermal plasma thruster for 'CubeSat' nano-satellites",
abstract = "In the miniaturised Pocket Rocket thruster, a radiofrequency plasma is employed to heat the gas via charge exchange collisions and ambipolar flow to create a form of electrothermal thruster which has its heating mechanism in the centre of the flowing propellant rather than on the thermally lossy walls. The radiofrequency generates a highdensity plasma at about 1 Torr having a volume less than 1 millilitre and its characteristics operate in a linear power regime where measured thrust (~1 mN) and specific impulse (~100 s) performances can now be successfully simulated using computer fluid dynamics codes. Miniaturised power and propellant sub-systems totaling a few hundred grams in weight for a few Watts have been developed for Pocket Rocket for integration within a 1/2 U (1 U = 10 cm x 10 cm x 10 cm) CubeSat. This proof of concept aims at getting flight heritage and is a stepping stone towards the development of higher power systems since the radio-frequency power sub-system can be scaled up to a few kWatts and drive the electrode-less neutraliser-free Helicon plasma thruster.",
keywords = "CubeSat, Nano-satellite, Propellant, Propulsion, Radiofrequency, Thruster",
author = "Christine Charles and Ho, {Teck Seng} and Ashley Ellis and Thomas Charoy and Alex Bennet and Alex Stuchbery and Rod Boswell and Wei Liang and Luke Raymond and Juan Rivas-Davila",
year = "2017",
language = "English",
isbn = "9781510855373",
series = "Proceedings of the International Astronautical Congress, IAC",
publisher = "International Astronautical Federation, IAF",
pages = "9035--9039",
booktitle = "68th International Astronautical Congress, IAC 2017",
address = "France",
note = "68th International Astronautical Congress: Unlocking Imagination, Fostering Innovation and Strengthening Security, IAC 2017 ; Conference date: 25-09-2017 Through 29-09-2017",
}