Litcius/Paper detail

Time-resolved ion velocity measurements in a high-power Hall thruster using laser-induced fluorescence with transfer function averaging

Vernon H. Chaplin, Robert B. Lobbia, Alejandro López Ortega, Ioannis G. Mikellides, Richard R. Hofer, James E. Polk, Adam Friss

2020Applied Physics Letters42 citationsDOI

Abstract

We present time-resolved laser-induced fluorescence measurements of ion velocity distributions in a 12.5 kW Hall Effect Rocket with Magnetic Shielding (HERMeS) operating in both quasi-periodic and aperiodic oscillation regimes. Transfer function averaging in Fourier space is used to obtain useable signal-to-noise ratios and synchronize data traces taken at different laser wavelengths, measurement axes, and positions in the plasma, achieving a measurement bandwidth of ∼100 kHz. For breathing-mode like global oscillations, the results are shown to be robust to the choice of either discharge current Id(t) or cathode-to-ground voltage Vcg(t) as the reference waveform input to the transfer function. At discharge voltage Vd=600 V, a nearly periodic, impulsive oscillation in the acceleration zone position was accompanied by a ≳100 V peak-to-peak oscillation in the near-plume plasma potential. Smaller amplitude, aperiodic oscillations in the mean ion velocities were detected at Vd=300 V.

Topics & Concepts

Oscillation (cell signaling)AmplitudePhysicsAtomic physicsComputational physicsOpticsLaserWaveformChemistryVoltageQuantum mechanicsBiochemistryPlasma Diagnostics and ApplicationsLaser-induced spectroscopy and plasmaElectrohydrodynamics and Fluid Dynamics