The E-B band system of diatomic iodine

TL;DR: In this paper, the Franck-Condon effect was used to prevent the simultaneous excitation of two o r three photons using the conveniently placed, low-lying excited sQtes in the visible region for the initial step, in effect broadening the perspective from the ground state to include that from lower ex...

TL;DR: In this article, the role of Franck-Condon in the interpretation and analysis of transitions lie-libre de molecules diatomiques, dans la cadre classique, semi-classique ou quantique, is discussed.

TL;DR: Lienau et al. as discussed by the authors presented a microscopic picture of the elementary processes under the free and solvation conditions encompassing the different density regimes in the gas-to-liquid transition region.

TL;DR: The relative fluorescence intensities of all the strong electronic transitions from five of the first cluster of ion-pair (IP) states of I2 and from three states in the second cluster have been measured as discussed by the authors.

TL;DR: In this article, the exchange perturbation theory is used to analyze the interaction energy and dipole moment of alkali halide diatomics and it is shown that extensions of the models to include distortion effects can be formulated and these give rise to effective polarizabilities of the ions in the diatomic.

TL;DR: In this paper, new molecular constants and polynomial expansion parameters for the B - X system of iodine were given for the bands with 0 ≤ v " ≤ 9 and 1 ≤ v '' ≤ 62", with standard deviations of 0.001, 0.0017, and 0.004 cm −1, respectively.

TL;DR: Two-step polarization-labeling spectroscopy of diatomic molecules is described in this paper, where formulas for relative transition intensities are derived, and their use in determining angular momenta of molecular states is discussed.

TL;DR: In this paper, the emission spectrum of I2 in Ar is examined as a function of pressure and temperature, and evidence is found for at least twelve of the ion-pair states, of which D'(Zg) is the lowest.