F. Cannat scite author profile

In most expanding-plasma thrusters, ion acceleration occurs due to the formation of ambipolar-type electric fields; a process that depends strongly on the electron dynamics of the discharge. The electron properties also determine the heat flux leaving the thruster as well as the maximum ion energy, which are important parameters for the evaluation of thruster performance. Here we perform an experimental and theoretical investigation with both magnetized, and unmagnetized, low-pressure thrusters to explicitly determine the relationship between the ion energy, E i , and the electron temperature, T e0 . With no magnetic field a relatively constant value ofis found for xenon, while when a magnetic nozzle is present, E T / i e0 is between about 4-5. These values are shown to be a function of both the magnetic field strength, as well as the electron energy distribution function, which changes significantly depending on the mass flow rate (and hence neutral gas pressure) used in the thruster. The relationship between the ion energy and electron temperature allows estimates to be made for polytropic indices of use in a number of fluid models, as well as estimates of the upper limits to the performance of these types of systems, which for xenon and argon result in maximum specific impulses of about 2500 s and 4500 s respectively.

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Optimization of a coaxial electron cyclotron resonance plasma thruster with an analytical model

Cannat

Lafleur

Jarrige

et al. 2015

Phys. Plasmas

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F. Cannat

Electron dynamics and ion acceleration in expanding-plasma thrusters

Optimization of a coaxial electron cyclotron resonance plasma thruster with an analytical model

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