关键词: 离子推力器；空心阴极； 发射体区； 等离子体特性

Abstract: In order to obtain the 20A emission current hollow cathode steady-state work performance parameters of 30cm diameter ion thruster and verify the structure design of emitter，numerical calculation method and finite element method were used to study plasma characteristics in emitter region of hollow cathode. The obtained results indicate that the pressure at the emitter region is in the range of 115～150 Pa，and xenon pressure in middle region is higher than other place. Finite element method show that emitter's temperature is about 1570℃ and the heat loss estimated value is 10.26W by one-dimensional heat conduction equation，electron temperature is in the range of 1.5～1.7eV and which along axial direction closed to cathode orifice is higher than other region when emission current is 15A，the suggested hollow cathode optimum working emission current is 15A. Average electron current density is about 1.3×105A/m2，internal surface area is estimated 1.5cm2，the suggested inner diameter is in the range of[?]2～2.5mm，and hollow cathode's emitter which adopt the suggested structure design has experimentally verified that the biggest emission current is in the range of 19～20A，which prove the structure design of emitter meets hollow cathode's 20A emission current demand. Ion current density peak value in the middle of emitter region is about 8.5×105A/m2 ，and sputtering erosion effect in this place is the main factor which influence work life of cathode emitter，so the key point of emitter design are thickness and sputtering erosion rate of hollow cathode emitter.

Key words: Ion thruster；Hollow cathode；Emitter region；Plasma characteristics