Laser Spectroscopy: Applications & Techniques : August 30-31, 1978, San Diego, California |
Contents
COMBUSTION | 41 |
SPECTROSCOPIC TECHNIQUES APPLICATIONS TO CHEMISTRY II | 97 |
APPLICATIONS TO REMOTE SENSING | 133 |
Copyright | |
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absorbed anti-Stokes applications atoms bandwidth CARS spectrum cell Chem chemical chemistry CO₂ CO2 laser collisions combustion cross section cryogenic detection detector diagnostics diffusion flame diode laser dissociation dye laser electronic emission excitation experimental experiments Figure filter fluorescence frequency gas phase gases HCOOH heterodyne HgCdTe infrared intensity interaction isotope isotope separation kinetics Laboratory lanthanides laser beam laser induced laser pulse laser radiation laser-induced fluorescence Lett levels lidar linewidth liquid measurements method mixture mode molecular molecules monitoring multiphoton nonlinear nonlinear optics nonresonant nsec number density observed obtained optical output peak phase matching photochemical photochemistry photolysis photon Phys pollution pressure probe pump laser Q-branch quantum Raman spectroscopy ratio Rayleigh scattering reaction Research resolution resonance retroreflector rotational sample sensitivity shown in Fig solution solvent spatial species concentration spectral spectroscopy spontaneous Raman scattering Stokes technique temperature thermal tion torr transition tunable diode laser vibrational wavelength