The magneticfield strength directly influences the probability of the primary electrons making a collision before being lost to the anode.Based on the analytical discharge performance model and the experimental values of the beam ion en-ergy cost, The artide considers that only by changing the magnetic field strength to improve the performance of the ion thruster , while keeping the LIPS-200 configurationand operation parameters unchanged .The results show that reducingthe size of the magnet for 1 mm , the magnetic density flux contour in the discharge chamber would be changed and the strength of the magnet transforms from the 5.0×10-3 ~3.0×10-2 T to 10.×10 -2~5.0×10 -2 T.By increasing the strengt5h0%, the mean time for a primary electronwouldbe decreased by 49.9%, the probability of collision between the primary electrons and neutrals would be increased by 6.9%, the loss rate of the ion wouldbe reduce by 64%, the beam ion energy costwould be decreased by 18.1%, and the propellantutilization wouldbe improved by 7.4%.The resultscan provide reference and refer-ence valuein the future development of the performanceanalysis of ion thruster.%离子推力器放电室内永久磁铁产生的磁场大小及分布对提高放电室放电效率和约束等离子体起着非常重要的作用。利用离子推力器性能模型并结合试验测得的束流离子生产成本,分析放电室内磁感强度大小对LIPS-200 离子推力器放电室性能的影响。数值计算结果显示永久磁铁厚度增加1 mm,放电室内的磁感强度从原来的5.0×10 -3 ~3.0×10 -2 T 增加至1.0×10 -2 ~5.0×10 -2 T。理论分析结果显示磁感强度增加50%,原初电子平均约束时间增加49.9%、原初电子和中性气体之间的碰撞概率增加6.9%、离子损耗减小64%、束流离子生产成本降低18.1%、推进剂利用率提高7.4%。放电损耗、推进剂利用率与磁感强度大小呈线性关系。该研究能够为今后离子推力器设计提供一定的参考。
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