2022
DOI: 10.1088/2058-6272/ac839a
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A study of the influence of different grid structures on plasma characteristics in the discharge chamber of an ion thruster

Abstract: The grid structure has significant effects on the discharge characteristics of ion thruster. The discharge performances of 30 cm diameter ion thruster with flat, convex and concave grids are studied. The analysis results show that the discharge chamber with a convex grid has a larger “magnetic field free area” than others, and the parallelism of magnetic field isopotential lines and anode is basically same in the three models. Plasma densities of the three structures at the grid outlet are in the range of 3.1×… Show more

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Cited by 2 publications
(3 citation statements)
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“…T ed is electron temperature downstream of the grids, and the electrons in this region are mainly from ionization in the plume region and emission of the neutralizer. V p is the plasma potential, which is set according to the calculation result of the plasma sheath potential [19].…”
Section: Calculation Modelmentioning
confidence: 99%
See 1 more Smart Citation
“…T ed is electron temperature downstream of the grids, and the electrons in this region are mainly from ionization in the plume region and emission of the neutralizer. V p is the plasma potential, which is set according to the calculation result of the plasma sheath potential [19].…”
Section: Calculation Modelmentioning
confidence: 99%
“…At present, the special lifetime acceleration verification of adjusting the background pressure in the vacuum chamber has not been carried out, but the simulation results can be verified through the performance test and life test of a 30 cm diameter ion thruster in different vacuum facilities. From 2017 to 2021, two 30 cm diameter ion thrusters (number M04 and M06, with newly installed grids) were, respectively, subjected to 1500 h and 6500 h verification tests in the vacuum facility numbered TS-7 and TS-7A (as shown in figure 12) of LIP [13,19]. The TS-7 vacuum facility is 3.8 m in diameter and 8 m in length, which can provide a vacuum level of 5 × 10 −3 Pa when the thruster is under 5 kW rated condition.…”
Section: Influence Of Mass Utilization Efficiencymentioning
confidence: 99%
“…In the three stages, the surfaces of ion thruster grids could absorb gases and particles, resulting in micro-protrusion on the surfaces and frequent breakdown in the early stage of the thruster on orbit. However, due to the limited amount of gases and particles adsorbed on the surfaces of grids, the gases and particles on the surfaces of ion thruster grids would gradually desorb with a high temperature [42]. Thus, the frequency of breakdown caused by the absorbed gases and particles will decrease with the increasing working time of the ion thruster.…”
Section: A Influences Of Environmentmentioning
confidence: 99%