Quantitative measurements of CO_2 and CH_4using a multipass Raman capillary cell
Author:
Publisher
The Optical Society
Reference12 articles.
1. Remote, Long-Pathlength Cell for High-Sensitivity Raman Spectroscopy
2. Laser Raman sensor for measurement of trace-hydrogen gas
3. Multiple-pass Raman gain cell
4. Retroreflecting multipass cell for Raman scattering
5. Intensification of Spontaneous Raman Spectra by Use of Liquid Core Optical Fibers
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