1. Advanced ion propulsion systems for affordable deep-space missions;Brophy;Acta Astronaut.,2003
2. Correction thruster development based on high-current surface discharge in vacuum;Silnikov;Acta Astronaut.,2015
3. G.C.Soulas, The Impact of Back-Sputtered Carbon on the Accelerator Grid Wear Rates of the NEXT and NSTAR Ion Thrusters, in, IEPC-2013-157, in: Proceedings of the 33rd International Electric Propulsion Conference, Washington DC, 2013.
4. The Effect of Carbon Deposition on Accelerator Grid Wear Rates in Ion Engine Ground;Polk,2000
5. An overview of the results from an 8200h wear test of the NSTAR ion thruster;Polk,1999