Study of the configuration of the core of the magnetization source of magnetic systems of electric propulsion
... operating interpolar interval are presented.
1.
Гопанчук В. В.
Плазменный двигатель с замкнутым дрейфом электронов: пат. РФ №
2204053; кл. F03H 1/00; 29.09.00.
Gopanchuk V., Mitrofanova O., Potapenko M.
Hall effect thruster, stationary plasma thruster, hybrid plasma
thruster, magnetic system, magnetic coil.
155-162
Investigation of influences parameters and topology of magnetic field peripheral zone stationary plasma thruster on the efficiency of the cathode-compensator
... магнитных систем стационарных плазменных двигателей // Вестник Российского государственного университета им. И. Канта. Вып. 10. Калининград, 2010.
Mitrofanova O., Rumyantsev А.
stationary plasma thruster (SPT), cathode-compensator, topology of magnetic field, magnetic field, cathode coupling voltage (Uкз), 3D-calculations of magnetic field.
44-51
Computer modeling of magnetic systems of stationary plasma thrusters
... Conference, Florence, Italy, September 17
—
20, 2007
.
4.
Arkhipov B. et al.
The results of 7000 hour SPT-100 life testing // IEPC-95—039, 24th International Electric Propulsion Conference. Moscow
,
Russia
, 1995.
Gnizdor R. Yu., Kozubsky K. N., Mitrofanova O.A.
stationary plasma thruster, calculation of magnetic field, magnetic system, cathode position.
137-144