LASER-COLLISION INDUCED FLUORESCENCE IN ARGON DISCHARGES

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Presentation transcript:

LASER-COLLISION INDUCED FLUORESCENCE IN ARGON DISCHARGES Laser-collision induced fluorescence (LFIC) was demonstrated and calibrated in low-pressure (< 1 Torr) argon discharges. Double-pulsed plasma generation and manipulation was utilized to independently control both electron density (ne) and reduced electric field (E/N) in the plasma during calibration procedures. The calibrated LCIF technique was applied to transient magnetized plasma discharges to demonstrate this diagnostic capability. Setup Observed plasma properties Experimental setup and observed plasma properties measured in argon with newly calibrated LCIF diagnostic. DOE Plasma Science Center Control of Plasma Kinetics May 2015 HIGHLIGHT 1

SPATIOTEMPORAL EVOLUTION OF Si PARTICLE CLOUDS IN DUSTY PLASMAS Laser light scattering (LLS) in SiH4/Ar capacitively coupled plasmas (CCPs) between parallel electrodes revealed unanticipated patterns in the spatiotemporal evolution of silicon nanoparticle clouds. Distinctive classes of spatiotemporal evolution of the dust cloud were observed, and classified into three regimes based on power and pressure. At low pressure we observed periodically repeating radial expansions and contractions of a continuous dust cloud. At high pressure, the oscillations ceased and a void formed. These observations provide insights into the complexity of multi-phase plasmas. LLS intensity from silicon nanoparticles in a CCP, showing the contraction of the dust cloud. (10 s between frames.) DOE Plasma Science Center Control of Plasma Kinetics May 2015 HIGHLIGHT 2