UV absorption spectroscopy in optically dense fireballs using achromatic frequency doubling of a broadband modeless dye laser

Michael Soo, Nick Glumac

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Optical diagnostics of fireballs, such as in high explosives and metal dust cloud combustion, are typically done in emission due to the intense luminosity, but because of the optical thickness of the fireball, the emission measurement is typically only representative of information near the surface of the fireball. Absorption techniques provide a path averaged measurement and give information about the inside of the fireball. Intense pulsed laser sources can penetrate an optically dense medium and still transmit enough light to disperse into a well-resolved spectrum, from which concentration and temperature information is extracted. In this study, the technique is extended to the UV spectral region by using a broadband frequency doubling technique. The output of a Nd:YAG(355 nm) pumped modeless dye laser can be spectrally dispersed using prisms and focused onto a type-I BBO crystal so that the angular dispersion of the light matches the external phase matching angle of the crystal for each wavelength in the laser. The generated dispersed UV light is recombined by another set of dispersive elements to generate a collimated beam of broadband UV light for the absorption measurement. The system is demonstrated using NO absorption in an electric discharge in the vicinity of 226 nm.

Original languageEnglish (US)
Title of host publication8th US National Combustion Meeting 2013
PublisherWestern States Section/Combustion Institute
Pages990-996
Number of pages7
ISBN (Electronic)9781627488426
StatePublished - 2013
Event8th US National Combustion Meeting 2013 - Park City, United States
Duration: May 19 2013May 22 2013

Publication series

Name8th US National Combustion Meeting 2013
Volume2

Other

Other8th US National Combustion Meeting 2013
Country/TerritoryUnited States
CityPark City
Period5/19/135/22/13

ASJC Scopus subject areas

  • General Chemical Engineering
  • Mechanical Engineering
  • Physical and Theoretical Chemistry

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