Plasma Propulsion
- Dan Goebel, Electric Propulsion and Asteroid Capture (February 11, 2015)
- Brad King, Turning Liquid Magnets into Miniature Plasma Thrusters (December 9, 2015)
- Benjamin Jorns, Electric Propulsion and Plasma (April 12, 2017)
- John Brophy, Ion Propulsion and the Job Creating Power of the Rocket Equation (January 17, 2018)
- Richard Wirz, Plasma Rockets Using Advanced Materials (October 10, 2018)
- Wensheng Huang, Plasma Diagnostics Package for Studying High-Power Hall Thrusters in Flight (October 2, 2019)
- James Polk, Modeling Ion Engine Erosion (January 15, 2020)
- Sedina Tsikata, Shining a Light on the Complex Physics of Low-temperature Plasmas (March 10, 2021)
- Justin Little, Predicting Abrupt Mode Transitions in Aerospace Plasmas (March 31, 2021)
- Ken Hara, Computational Models for Electric Propulsion and Low-temperature Plasma Applications (December 8, 2021)
- Andrei Smolyakov, Physics of Partially Magnetized E x B Plasmas in the Laboratory and Space (April 14, 2021)
- James Gilland, Physics Impacts to Plasma Wave Thruster Design (November 3, 2021)
- Michael McDonald, Opening the Way to Space with Electric Propulsion (October 26, 2022)
- Kurt Polzin, Nuclear Power Applications for Spacecraft Propulsion (November 30, 2022)
- Elaine Petro, Multiscale Modeling of Molecular Ion Beams and Beam-Surface Interactions (September 27, 2023)
- Trevor Lafleur, Plasmas for Propulsion: Alternative Propellants and (Some) Emerging Concepts (October 4, 2023)
- Yevgeny Raitses, Mastering Electron-beam Generated Plasmas for Materials Processing and Space Propulsion (February 7, 2024)
Videos
MiPlasma #20Dr. Dan Goebel, Electric Propulsion and Asteroid Capture
MiPlasma #21Prof. Brad King, Turning Liquid Magnets into Miniature Plasma Thrusters
MiPlasma #36Prof. Benjamin Jorns, Electric Propulsion and Plasma
MiPlasma #42Dr. John Brophy, Ion Propulsion and the Job Creating Power of the Rocket Equation
MiPlasma #48Prof. Richard Wirz, Plasma Rockets Using Advanced Materials
MiPlasma #54Dr. Wensheng Huang, Plasma Diagnostics Package for Studying High-Power Hall Thrusters in Flight
MiPlasma #61Dr. James Polk, Modeling Ion Engine Erosion
MiPlasma #68Dr. Sedina Tsikata, Shining a Light on the Complex Physics of Low-temperature Plasmas
MiPlasma #72Prof. Justin Little, Predicting Abrupt Mode Transitions in Aerospace Plasmas
MiPlasma #74Prof. Ken Hara, Computational Models for Electric Propulsion and Low-temperature Plasma Applications
MiPlasma #76Prof. Andrei Smolyakov, Physics of Partially Magnetized E x B Plasmas in the Laboratory and Space
MiPlasma #79Dr. James Gilland, Physics Impacts to Plasma Wave Thruster Design
MiPlasma #80Dr. Michael McDonald, Opening the Way to Space with Electric Propulsion
MiPlasma #85Dr. Kurt Polzin, Nuclear Power Applications for Spacecraft Propulsion
MiPlasma #88Prof. Elaine Petro, Multiscale Modeling of Molecular Ion Beams and Beam-Surface Interactions
MiPlasma #90Dr. Trevor Lafleur, Plasmas for Propulsion: Alternative Propellants and (Some) Emerging Concepts
MiPlasma #92Dr. Yevgeny Raitses, Mastering Electron-beam Generated Plasmas for Materials Processing and Space Propulsion