关键词: 等离子体;羽流;微波衰减;相移 

Abstract: The aim of this article is to estimate the microwave attenuation and phase shifts due to the stationary plasma thruster plume. A two-dimensional axisymmetric approach that combines the particle-in-cell method with the direct simulation Monte Carlo method has been used to simulate the distribution of electrons in the plume of the stationary plasma thruster, SPT-100, in a vacuum chamber of 6mPa and in space. In addition, the attenuation and phase shifts of the 2GHz/4GHz/8GHz/12.5GHz microwave are estimated, by means of the analyzing of the characteristic frequency of the SPT plume and calculating the attenuation factors and the phase constants. The attenuation of 8GHz/12.5GHz is very small, and the phase shifts are 10°～120°。The attenuation of 2GHz/4GHz microwave is 10~50dB near the exit of the thruster. It is shown that the C-band and S-band microwave is likely to attenuate in the SPT plume while the X-band microwave and the microwave of higher frequencies hardly attenuates in the SPT plume. The microwave attenuation may increase slightly in the vacuum chamber, but the phase shift may be quite different from that in space.

Key words: Plasma; Plume; Microwave attenuation; Phase shift