Proposed method for calibration of rotation-vibrational Raman spectra

The potential model of G. Thompson et al. [J. Mol. Spectrosc. 124, 130-138 (1987)] for an analysis of the vibrational-rotational and the rotational spectra of diatomic molecules is modified by an algebraic WKB treatment of the Schro ¨dinger equation given by Watson's effective Hamiltonian. A compact

The commutator perturbation method, an algebraic version of the Van Vleck-Primas perturbation method, expressed in terms of ladder operators, has been applied to solving the eigenvalue problem of the Hamiltonian describing the vibrational-rotational motion of a diatomic molecule. The physical model

## Abstract In this work we demonstrate how different modern quantum chemical methods can be efficiently combined and applied for the calculation of the vibrational modes and spectra of large molecules. We are aiming at harmonic force fields, and infrared as well as Raman intensities within the dou

Raman spectroscopy and ultraviolet resonance Raman spectroscopy are versatile methods for probing details of protein structure and dynamics in complex biological assemblies, including viruses. The information contained in the Raman spectrum of a virus is ordinarily interpreted on the basis of an und