Performance and control of a 30-cm-diam, low-impulse, Kaufman thruster

Abstract: An experimental investigation was conducted to develop a 30-cm-diam, mercury bombardment thruster for potential space applications. Thruster operating efficiencies were improved by variation of the discharge-chamber geometry and magnetic field shape. A single, glass-coated system was used to achieve efficient thruster operation at lower specific impulse than previous bombardment thrusters. Propellant utilization efficiencies greater than 90% and discharge losses less than 200 ev/ion were attained. Estimated ov… Show more

“…For all of the grids tested, when the FQS and FQ^ were increased the minimum EJ decreased as well as the nu-With a greater effective F 0 s the ions in the discharge chamber were more efficiently extracted, but the larger FQA also allowed a greater number of neutral atoms to be lost. 4. When the FQ^ was decreased while FQS was held constant the nu always increased for all EJ.…”

Performance of 30-cm ion thrusters with dished accelerator grids

“…For all of the grids tested, when the FQS and FQ^ were increased the minimum EJ decreased as well as the nu-With a greater effective F 0 s the ions in the discharge chamber were more efficiently extracted, but the larger FQA also allowed a greater number of neutral atoms to be lost. 4. When the FQ^ was decreased while FQS was held constant the nu always increased for all EJ.…”

Performance of 30-cm ion thrusters with dished accelerator grids

“…High accelerator drain currents and electron backstreaming currents accompanied these arcs. The cause of the arcs 3 and their long range effect on performance has not been determined. Fig.…”

“…( 1 9 2 ) The results of an initial optimization of a 30 centimeter diameter mercury thruster of this type have been detailed in references 3 and 4. The thruster typically operates at a discharge chamber loss of 200 electron volts per beam ion produced at a propellant utilization efficiency of greater than 90 percent.…”

Component testing of a 30-centimeter diameter electron bombardment thruster

“…Both the keeper and collector voltages rose between one and two volts over the test period but remained constant over the last half of the test. After testing in a bell jar cathode 8 was also run in a 30 cm thrusterl 5 ) as a neutralizer with a beam current of 2 amps. In the thruster test both the keeper and coupling voltages were 19 volts, for a keeper current of 500 ma and an equivalent flow of 84 ma.…”

Investigation of hollow cathode performance for 30-cm thrusters