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Progress on laser induced fluorescence in a collisional environment: the case of OH molecules in ns pulsed discharges

Progress on laser induced fluorescence in a collisional environment: the case of OH molecules in ns pulsed discharges

Dilecce, G.; Martini, L. M.; Ceppelli, M.; Scotoni, M.; Tosi, P.

Journal: Plasma sources science & technology (Print) 28 (2), pp. 025012-1 - 025012-10 Year: 2019
ISTP Authors:
Giorgio Dilecce
Keywords: laser induced fluorescence, atmospheric pressure discharges, CO2 conversion
Research Activitie: JOURNAL ARTICLES

ABSTRACT
Additional information

A nanosecond discharge imposes severe challenges to the application of laser induced fluorescence (LIF), due to the nature of its variable and hot collisional environment. In this paper, we review these difficulties, the current knowledge on collision processes and the concept of collision energy transfer LIF (CET-LIF). The application of CET-LIF to nanosecond discharges for CO2 dissociation shows results that make this challenge worth pursuing.

ID	401246
DOI	10.1088/1361-6595/aaffef
PRODUCT TYPE	Journal Article
LAST UPDATE	2022-01-24T11:05:53Z

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