Micropropulsion for small spacecraft

Micropropulsion for small spacecraft by Michael M. Micci Download PDF EPUB FB2

Micropropulsion for small spacecraft. Reston, Va.: American Institute of Aeronautics and Astronautics, © (OCoLC) Document Type: Book: All Authors /. Space micropropulsion systems for Cubesats and small satellites: From proximate targets to furthermost frontiers Article (PDF Available) in Applied Physics Reviews 5(1) March with.

Micropropulsion for small spacecraft: a new challenge for field effect electric propulsion and microstructured liquid metal ion sources Dr J. Mitterauer Corresponding Author. Download Citation | Micropropulsion for small spacecraft: A new challenge for field effect electric propulsion and microstructured liquid metal ion sources | The growing interest in the use of.

A new type of micropropulsion system for miniature satellites called CubeSats uses an innovative design of tiny nozzles that release precise bursts of water vapor to maneuver the spacecraft. Quad-Thruster FEMTA Micropropulsion System for CubeSat 1-Axis Control micropropulsion would mobilize a satellite to allow for are one of the most mature options for small spacecraft.

Multi-mode spacecraft micropropulsion systems which include a high-thrust chemical mode and high-specific impulse electric mode are assessed with specific reference to cubesat-sized satellite by: 6.

compiled micropropulsion state of the art inand many of those micropropulsion systemshave been or are being investigated for small spacecraft(e.g.,microresistojets,microcavitydischargethrusters,mini. Micropropulsion is an enabling technology for microspacecraft operations by making missions possible that otherwise could not be performed.

For example, the formation and maintenance of platoons of microspacecraft will require a maneuvering capability to counter orbital perturbations.