Draft:Mitchell L.R. Walker

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Mitchell Louise Ronald Walker II (born July 18, 1977) is an American aerospace engineer, researcher, and educator. As of January 1, 2024, he is the chair of the Daniel Guggenheim School of Aerospace Engineering (AE) in the College of Engineering at the Georgia Institute of Technology.^[1] Prior to serving as the chair, he was the associate dean for academic affairs at the Georgia Tech College of Engineering.^[2] He is the founder and director of the High-Power Electric Propulsion Laboratory (HPEPL) at Georgia Tech, founded in 2005.^[3] The lab aims to advance the understanding of plasma physics and expand the technology of electric propulsion devices for future space use.

As an expert in the field of electric propulsion, he has served on the National Research Council Reusable Booster System Committee,^[4] the NASA Advisory Council-Technology, Innovation, and Engineering Committee,^[5] the U.S. Department of Energy, Office of Science Fusion Energy Sciences Advisory Committee (FESAC)^[6] and the National Academies of Sciences Engineering Medicine, Committee to Review the Air Force Reusable Booster System Study.^[7]

Walker has authored over 100 journal articles and conference papers in electric propulsion and plasma physics.^[8] In addition, he serves as an associate editor of the American Institute of Aeronautics and Astronautics (AIAA) Journal of Spacecraft and Rockets.^[9] Walker is also on the editorial board of the Journal of Electric Propulsion^[10] and Frontiers in Physics and Astronomy and Space Sciences-Plasma Physics.^[11]

Walker was born in Alma, Michigan, but grew up in Cassopolis, Michigan, a lakeside community on the southwest side of the state. He always liked to build things but became interested in aerospace when his curiosity turned to engines, particularly model rockets and RC airplanes.

He earned his B.S.E. in aerospace engineering in 1999, M.S. in aerospace engineering in 2000, and Ph.D. in aerospace engineering in 2005 from the University of Michigan.^[12]

Walker joined the faculty at Georgia Tech in AE as an assistant professor in 2005. He became an associate professor in 2011 and a full professor in 2017. In two years, he became the associate chair for graduate programs, where he served for four years. Walker is the principal investigator and director of the Joint Advanced Propulsion Institute (JANUS),^[13] NASA’s Space Technology Research Institute, which develops strategies and methodologies to overcome limitations in ground testing of high-power electric propulsion systems. The $15 million project includes 11 partner universities and 17 researchers. In 2022, he served as the associate dean for academic affairs for the Georgia Tech College of Engineering.^[14] In January 2024, he became the chair of the highly ranked^[15][16] AE School.

Walker’s primary research interests focus on electric propulsion, plasma physics, and hypersonic aerodynamics/plasma interaction. He has extensive design and testing experience with Hall thrusters and ion engineers. Walker has made significant contributions in the areas of Hall thruster clustering, vacuum chamber facility effects, plasma-material interactions, and electronic emission from carbon nanotubes. His research involves theoretical and experimental work in advanced spacecraft propulsion systems, diagnostics (including THz time-domain spectroscopy and Thomson scattering), plasma physics, helicon plasma sources, magnetoplasmadynamic thrusters, and pulsed inductive thrusters.^[17][18]

• US Patent No. 10,823,158, “Deployable Gridded Ion Thruster,” Authors: Walker, M. L. R., Cheong, C., Filed February 19, 2019, Issued: November 3, 2020.^[19]
• U.S. Patent No. 8,604,681, “Cold Cathodes and Ion Thrusters and Methods of Making and Using Same,” Authors: M. L. R. Walker, W. J. Ready, Filed March 2009, Issued: December 10, 2013.^[20]

• Georgia Institute of Technology Class of 1969 Teaching Fellow, 2005^[21]
• NASA Faculty Fellow, 2005^[22]
• Air Force Office of Scientific Research Young Investigator Program Award, 2006^[23]
• AIAA Lawrence Sperry Award, 2010^[24]
• AIAA Associate Fellow, 2011^[25]
• Georgia Power Professor of Excellence Award, Georgia Institute of Technology, 2017^[26]
• Provost’s Emerging Leaders Program, Georgia Institute of Technology, 2017^[27]
• American Institute of Aeronautics and Astronautics Sustained Service Award, 2020^[28]
• John W. Young Chair, Aerospace Engineering, Georgia Institute of Technology, 2022^[29]
• Fellow – American Institute of Aeronautics and Astronautics, 2023^[30]

• Electric Rocket Propulsion Society (ERPS), Member since 2001
• American Society for Engineering Education (ASEE), Member since 2002
• AIAA Electric Propulsion Technical Committee, Member since 2005
• American Society of Mechanical Engineering (ASME), Member since 2009
• Editorial Board – Frontiers in Physics and Astronomy and Space Sciences – Plasma Physics since 2015
• Associate Editor – AIAA Journal of Spacecraft and Rockets since 2015
• American Physical Society (APS), Member since 2015
• Editorial Advisor – BMC Mechanical Engineering (part of Spring Nature) – 2018 - Present
• Deputy Director for Space Rockets and Advanced Propulsion since 2019
• Editorial Board – Journal of Electric Propulsion – 2021 - Present
• American Institute Aeronautics and Astronautics (AIAA), Fellow since 2023

^[31]

• Walker, Mitchell (November 2012). "Utilization of Residual Helium to Extend Satellite Lifetimes and Mitigate Space Debris" (PDF). AIAA Journal of Propulsion and Power. 28 (6): 1406–1412. doi:10.2514/1.B34498 – via Aerospace Research Central.
• Walker, Mitchell (July 2015). "Velocimetry of Cathode Particles in a Magnetoplasmadynamic Thruster Discharge Plasma" (PDF). American Institute of Physics Review of Scientific Instruments. 86 (7): 073513 1–10. Bibcode:2015RScI...86g3513W. doi:10.1063/1.4927477. PMID 26233389 – via JSTOR.
• Walker, Mitchell (July–August 2016). "Electrical Facility Effects on Hall Effect Thruster Cathode Coupling: Discharge Oscillations and Facility Coupling" (PDF). AIAA Journal of Propulsion and Power. 32 (4): 844–855. doi:10.2514/1.B35835. Retrieved June 5, 2024 – via Aerospace Research Central.
• Walker, Mitchell L.R. (November–December 2016). "Electrical Facility Effects on Hall Current Thrusters: Electron Termination Pathway Manipulation" (PDF). AIAA Journal of Propulsion and Power. 32 (6): 1365–1377. doi:10.2514/1.B35904. Retrieved June 5, 2024 – via Aerospace Research Central.
• Walker, Mitchell (October 2022). "Electrical Characteristics of a Hall Effect Thruster Body in a Vacuum Facility Testing Environment" (PDF). AIAA Journal of Electric Propulsion. 1 (1): 18. Bibcode:2022JElP....1...18W. doi:10.1007/s44205-022-00016-9. Retrieved June 4, 2024 – via Aerospace Research Central.