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W2168209831 endingPage "034022" @default.
W2168209831 startingPage "034022" @default.
W2168209831 abstract "The velocity distribution function (VDF) of metastable Xe+ ions was measured along the channel centerline of the high-power PPS?X000 Hall effect thruster by means of laser induced fluorescence (LIF) spectroscopy at 834.72?nm for various discharge voltages (300?700?V) and propellant mass flow rates (6?15?mg?s?1). The development of the on-axis profile of the velocity dispersion reveals the interrelation between ionization and acceleration layers. The ion velocity profiles are in accordance with outcomes of a hybrid numerical model in which the electron mobility is assessed from particle-in-cell simulations. The axial distribution of the effective electric field is inferred from the mean ion velocity profile, despite the parasitic effect due to ions created in the acceleration region. Most of the acceleration process takes place outside the thruster channel. The electric field augments and it moves upstream when the applied voltage is ramped up. The impact of the xenon mass flow rates is found to depend upon the voltage. A novel approach based on the moments of the experimental VDFs in combination with the Boltzmann's equation is introduced in order to determine the real electric field distribution. The method also provides the ionization frequency profile. The LIF diagnostics reveals the existence at the end of the acceleration region of fast ions of which the kinetic energy is above the supplied energy. The fraction of these supra-sped up ions grows when the voltage increases. The ion VDFs were also recorded in the plasma plume far field by way of a retarding potential analyzer (RPA). The shape of the RPA traces as well as their evolution with operating conditions are in agreement with trends observed by means of LIF spectroscopy. Finally, physical mechanisms at the origin of supra-sped up ions are discussed in light of numerical simulation outcomes and a set of new experimental results." @default.
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W2168209831 date "2009-07-15" @default.
W2168209831 modified "2023-10-14" @default.
W2168209831 title "Ion diagnostics of a discharge in crossed electric and magnetic fields for electric propulsion" @default.
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W2168209831 doi "https://doi.org/10.1088/0963-0252/18/3/034022" @default.
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