https://phys.org/news/2020-09-image-plasma-propulsion-small-satellites.html
Credit: SENER
While traditional chemical propulsion have fundamental upper limits, electric propulsion pumps extra energy into the thrust reaction to reach much higher propellant velocities by accelerating propellant using electrical energy. There are many methods of electric propulsion, many of which require electrodes to apply a current, increasing thruster cost and complexity.
By contrast the Helicon Plasma Thruster uses high power radio frequency waves to excite the propellant into a plasma.
Since the very first test ignition was achieved using argon gas in ESA's Propulsion Laboratory in the Netherlands, in 2015, the HPT has evolved through repeated test campaigns at the EPL and EP2's own facility, leading to improved levels of ionization and acceleration efficiency and a compact, lighter design.
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