Preliminary concept for an electrodeless Magnetic Reconnection Thruster (e-MRT)
POSTER
Abstract
Advanced thrusters are needed for deep space missions to Mars and beyond. Critical issues for such thrusters include (1) how to generate large thrust-to-power at (2) sufficiently high specific impulse with (3) long lifetime and (4) flexibility in propellant. To address these challenges, we are exploring a new electrodeless Magnetic Reconnection Thruster (e-MRT), which will use asymmetric, inductively-driven magnetic reconnection outflows to provide spacecraft thrust. Not requiring electrodes would mitigate electrode erosion, which is a key constraint on the lifetime of magnetoplasmadynamic (MPD) and Z-pinch thrusters–other candidates for these missions.
Presenters
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Kush Maheshwari
Princeton University
Authors
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Kush Maheshwari
Princeton University
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Jungkyun Kim
University of Tokyo, Princeton Plasma Physics Laboratory
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Hantao Ji
Princeton University
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Yevgeny Raitses
US Dept of Energy-Germantown, Princeton Plasma Physics Laboratory, Princeton Plasma Physics Laboratory, Princeton, NJ 08540, Princeton Plasma Physics Laboratory, Princeton University
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Jongsoo Yoo
Princeton Plasma Physics Laboratory
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Fatima Ebrahimi
Princeton Plasma Physics Laboratory
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Masaaki Yamada
Princeton Plasma Physics Laboratory, Princeton University