High-resolution line-shape spectroscopy during a laser pulse based on Dual-Broad-Band—CARS interferometry

Abstract

A high-resolution spectroscopic method is developed for recording Raman spectra of molecular transitions in transient objects during a laser pulse with a resolution of ≈0.1 cm-1. The method is based on CARS spectroscopy using a Fabry—Perot interferometer for spectral analysis of the CARS signal and detecting a circular interferometric pattern on a two-dimensional multichannel photodetector. It is shown that the use of the Dual-Broad-Band—CARS configuration to obtain the CARS process provides the efficient averaging of the spectral—amplitude noise of the CARS signal generated by a laser pulse and, in combination with the angular integration of the two-dimensional interference pattern, considerably improves the quality of interferograms. The method was tested upon diagnostics of the transient oxygen—hydrogen flame where information on the shapes of spectral lines of the Q-branch of hydrogen molecules required for measuring temperature was simultaneously obtained and used.