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A classical treatment of Rayleigh and vibrational Raman scattering
A partial quantum mechanical treatment of Rayleigh and rotational
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amplitude angle antisymmetric associated axes axis Chem classical D. A. Long dependence depolarization ratios derived polarizability tensor diatomic molecules dipole moment direction electric dipole electric vector electromagnetic electronic energy levels equations equilibrium example excitation formulae frequency harmonic hyper Raman incident radiation induced dipole infrared active infrared and Raman irradiance laser linear matrix molecular non-zero normal coordinate normal Raman observed obtained optical activity oriented oscillating perturbation point group polarizability components Poynting vector pulse pure rotation Raman quantum mechanical radiant intensity Raman active Raman effect Raman optical activity Raman spectra Raman Spectroscopy Rayleigh and Raman Rayleigh scattering resonance Raman rotation and vibration-rotation rotation Raman spectrum rotational transitions sample scatter plane scattered radiation scattering tensor selection rules shown in Fig space-fixed stimulated Raman Stokes and anti-Stokes Stokes parameters stretching mode temperature theory values vibration-rotation Raman vibrational Raman vibrational transition wave functions wavenumber shift z-axis zero