2018 IEEE International Power Modulator and High Voltage Conference

Development of Laser-Collision Induced Fluorescence for Atmospheric Pressure Plasma Generated in Helium Atmospheres

5 Jun 2018, 10:45

15m

Wrangler/Prospector/Homesteader

Oral Presentation Plasmas, Discharges, and Electromagnetic Phenomena Oral 6 - Magnetic & Arc Phenomena

Speaker

Ed Barnat (Sandia National Laboratories)

Description

The implementation and demonstration of laser-collision induced fluorescence (LCIF) generated in atmospheric pressure helium environments is presented in this communication. As collision times are observed to be fast (~ 10 ns), ultrashort pulse laser excitation (< 100 fs) of the 2(3)S to 3(3)P (388.9 nm) is utilized to initiate the LCIF process. Both neutral induced and electron induced components of the LCIF are observed in helium afterglow plasma as the reduced electric field (E/N) is tuned from < 0.1 Td to over 5 Td. Under the discharge conditions presented in this study (640 Torr He), the lower limit of electron density detection is ~ 10^12 e/cm^3. Spatial profiles of the 2(3)S helium metastable and electrons are presented as functions of E/N to demonstrate the spatial resolving capabilities of the LCIF method.