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362 Chapter 7 The electrical efficiency of the thruster, assuming the same anode loading and energy loss to the beam, would be , �e � 0.40 and the total efficiency would be �T =(0.915)2(0.40)(0.95)�32%. (7.3-68) Recent parametric experiments in which different wall materials were used in the SPT-100 [33] showed that changing from BNSiO2 to alumina reduced the efficiency to the order of 30%, consistent with the increased secondary electron yield of the different wall material. The agreement of this simple analysis with the experimentally measured efficiencies is somewhat fortuitous because the predictions are very sensitive to the secondary electron yield of the wall material and the actual sheath potential. Small errors in the yield data, changes in the wall material properties during thruster operation, and inaccuracies in the empirical values for the electron temperature and ion flux with respect to the beam parameters will significantly affect the calculated results. Other effects may also be significant in determining the thruster efficiency. The analysis of the sheath potential assumed a Maxwellian electron distribution function. It was recognized several years ago [37,41,42] that the electron distribution may not be Maxwellian. Detailed kinetic modeling of the Hall thruster channel plasma [43,44] indicates that the electron velocity distribution is depleted of the high-energy tail electrons that rapidly leave the plasma along the magnetic field lines and impact the wall. This is especially true near the space-charge limit where the sheath voltage is small and a large fraction of the electron tail can be lost. The collision frequencies and thermalization rates in the plasma may be insufficient to re-populate the Maxwellian tail. This will effectively result in a lower electron temperature in the direction parallel to the magnetic field toward the walls [45], which can increase the magnitude of the sheath potential and reduce the electron heat loss to the wall. In addition, re-collection of the secondary electrons at the opposite wall [46,47], due to incomplete thermalization of the emitted secondary electrons in the plasma, modifies the space-charge limits and sheath potential, which also can change the electron heat flux to the wall. These effects are difficult to model accurately due to the presence of several different electron populations, several collision/thermalization processes, the effect of magnetization on the electrons, and the presence of plasma instabilities. Understanding what determines the electron temperature and velocity distribution as a function of the discharge voltage and current, and uncovering the effects that determine the wall power flux and finding techniques to minimize them, are continuing areas of research at this time.PDF Image | Fundamentals of Electric Propulsion: Ion and Hall Thrusters
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