Article ID Journal Published Year Pages File Type
1240356 Spectrochimica Acta Part B: Atomic Spectroscopy 2012 6 Pages PDF
Abstract

Hall Effect Thrusters (HETs) are promising electric propulsion devices for the station-keeping of geostationary satellites and for interplanetary missions. The main limiting factor of the HET lifetime is the erosion of the annular channel ceramic walls. Erosion monitoring has been performed in the laboratory using optical emission spectroscopy (OES) measurements and data treatment based on the coronal model and the actinometric hypothesis. This study uses laser ablation of the ceramic wall in a running HET in order to introduce controlled amounts of sputtered material in the thruster plasma. The transient laser-induced breakdown plasma expands orthogonally in a steady-state plasma jet created by the HET discharge. The proposed spectroscopic method involves species from both plasmas (B, Xe, Xe+). The optical emission signal is correlated to the ablated volume (measured by profilometry) leading to the first direct validation of the actinometric hypothesis in this frame and opening the road for calibration of in-flight erosion monitoring based on the OES method.

► First laser ablation study in a running Hall Effect Thruster. ► Optical emission spectroscopy used to validate the actinometric hypothesis. ► Opens the way for absolute calibration of in-flight erosion monitoring.

Related Topics
Physical Sciences and Engineering Chemistry Analytical Chemistry
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