Plasma characterization of an atmospheric microwave plasma torch using diode laser absorption studies of the argon 4s³P₂state

Abstract: Diode laser absorption experiments have been performed on atmospheric microwave induced argon plasmas produced by the 'Torche à Injection Axiale' in order to study the 4s 3 P 2 metastable densities and deduce plasma properties. It is found that the density is maximal in the active plasma zone (∼1.5 × 10 18 m −3 ) and rapidly decreases in the recombining plasma zone. In strongly ionizing atmospheric plasmas the 4s population can be used to estimate the electron temperature. The obtained value (1.3 eV) is consid… Show more

“…Although this technique is very efficient and easy to implement in continuous steady state discharges or time averaged measurements of plasma species [18,19,20], the pulsed regime raises additional problems due to the fast time variations [21]. Time resolved measurements of atomic species have been performed by locking the laser to a fixed wavelength (usually the resonance wavelength λ 0 ) [22,23].…”

Argon metastables in HiPIMS: time-resolved tunable diode-laser diagnostics

“…Although this technique is very efficient and easy to implement in continuous steady state discharges or time averaged measurements of plasma species [18,19,20], the pulsed regime raises additional problems due to the fast time variations [21]. Time resolved measurements of atomic species have been performed by locking the laser to a fixed wavelength (usually the resonance wavelength λ 0 ) [22,23].…”

Argon metastables in HiPIMS: time-resolved tunable diode-laser diagnostics

“…The density of metastable and resonant atoms can be determined in various ways: self-absorption [7][8][9][10][11] and absorption using the emission from a tunable diode laser [12][13][14][15][16][17][18] or the line from a spectral lamp [2,[19][20][21][22][23][24][25][26][27]. Utilizing lasers to determine the density of metastable and resonant atoms is advantageous, as it does not depend on the absorption-line spectral profile.…”

Absorption spectroscopy measurements of resonant and metastable atom densities in atmospheric-pressure discharges using a low-pressure lamp as a spectral-line source and comparison with a collisional-radiative model

“…Also this plasma is well know because it has been characterized in depth in the literature and by our research group (temperatures, densities, etc.) [12,13] and it is possible to predict the behaviour of the plasma with the introduction of volatile organic compounds.…”

Assessment of a new carbon tetrachloride destruction system based on a microwave plasma torch operating at atmospheric pressure