, Plasma Sources Science and Technology, vol.25, p.33002, 2016.
PPS®1350-G Qualification Status 10500 h," 30 th International Electric Propulsion Conference, pp.2007-164, 2007. ,
Low-Power Magnetically Shielded Hall Thrusters, 2015. ,
, Journal of Propulsion and Power, vol.27, p.236, 2011.
, Physics of Plasmas, vol.18, p.33501, 2011.
, Journal of Applied Physics, vol.115, p.43303, 2014.
,
, Appl. Phys. Rev, vol.5, p.11104, 2018.
, Plasma Sources Science and Technology, vol.26, p.55020, 2017.
, Physics of Plasmas, vol.9, p.4340, 2002.
, Physics of Plasmas, vol.11, p.3035, 2004.
Design of a Laboratory Hall Thruster with Magnetically Shielded Walls, Phase I: Numerical Simulations, 47 th AIAA Joint Propulsion Conference, pp.2011-5809, 2011. ,
Evaluation of Erosion Reduction Mechanisms in Hall Effect Thrusters" 34 th International Electric Propulsion Conference ,
, Journal of Applied Physics, vol.115, p.43304, 2014.
,
Performance and Thermal Characterization of the NASA-300MS 20 kW Hall Effect Thruster, 33 rd International Electric Propulsion Conference, pp.2013-444, 2013. ,
,
,
Overview of the Development of the Solar Electric Propulsion Technology Demonstration Mission 12.5-kW Hall Thruster, 50 th AIAA Joint Propulsion Conference, pp.2014-3898, 2014. ,
The H9 Magnetically Shielded Hall Thruster, 35 th International Electric Propulsion Conference, pp.2017-232, 2017. ,
, Journal of Applied Physics, vol.116, p.53302, 2014.
,
Magnetically Shielded Miniature Hall Thruster: Performance Assessment and Status Update, 50 th AIAA Joint Propulsion Conference, pp.2014-3896, 2014. ,
, Journal of Propulsion and Power, vol.33, p.975, 2017.
, Journal of Propulsion and Power, vol.33, p.992, 2017.
Performance Enhancement of a Long-life, Low-power Hall Thruster for Deep-space Smallsats, IEEE Aerospace Conference, 2017. ,
,
Development and Initial Performance Testing of a Low-Power Magnetically Shielded Hall Thruster with an Internally-Mounted Hollow Cathode, 35th International Electric Propulsion Conference, pp.2017-64, 2017. ,
, Journal of Applied Physics, vol.122, p.33305, 2017.
, IEEE Transactions on Plasma Science, vol.46, p.330, 2018.
Performance Comparison Between Standard and Magnetically Shielded 200 W Hall Thrusters with BN-SiO 2 and Graphite Channel Walls, 35 th International Electric Propulsion Conference, 2017. ,
, Finite Element Method Magnetics software, 2016.
, Journal of Applied Physics, vol.119, p.163305, 2016.
, Journal of Applied Physics, vol.120, p.213303, 2016.
Fulfillment of the Bohm Condition on the 'HP Hall' Fluid-PIC Code, 40 th AIAA Joint Propulsion Conference, pp.2004-3955, 2004. ,
, IEEE Transactions on Plasma Science, vol.26, p.1592, 1998.
, Physics of Plasmas, vol.17, p.73507, 2010.
, Soviet Physics Technical Physics, vol.17, p.38, 1972.
, Journal of Applied Physics, vol.100, p.123301, 2006.
, Journal of Applied Physics, vol.91, p.5592, 2002.
, Physics of Plasmas, vol.10, p.4886, 2003.
, Physics of Plasmas, vol.10, p.4137, 2003.
, Physics of Plasmas, vol.25, p.61204, 2018.
, Journal of Applied Physics, vol.109, p.73310, 2011.
Hall2De Simulations with a First Principles Electron Transport Model Based on the Electron Cyclotron Drift Instability, 52 nd AIAA Joint Propulsion Conference, pp.2016-4618, 2016. ,
Data Driven Model for Electron Transport in a Hall Effect Thruster, Space Propulsion Conference, p.277, 2018. ,
, Journal of Applied Physics, vol.111, p.113301, 2012.
, Plasma Physics, vol.9, p.85, 1967.
, Physics of Plasmas, vol.10, p.4123, 2003.
, Journal of Propulsion and Power, vol.23, p.1068, 2007.
, Journal of Propulsion and Power, vol.22, p.721, 2006.
, Physical Review E, vol.86, p.46703, 2012.
, Journal of Propulsion and Power, vol.22, p.732, 2006.
, Plasma Sources Science and Technology, vol.27, p.55002, 2018.