Hyperfine structure of the f(0+g) state of iodine investigated through cw optical-optical double resonance

This paper reports for the first time both, an experimental observation and theoretical calculations of the K 2 4 3 D g state. For the experiment we used cw perturbation-facilitated optical-optical double resonance (PFOODR) spectroscopy. A single mode Tisapphire laser and a dye laser served as the p

The \(0_{g}^{+}\left({ }^{1} D\right)\) ion-pair state of \(\mathrm{I}_{2}\) has been analyzed by optical-optical double-resonance using the \(0_{g}^{+}\left({ }^{1} D\right)-B^{3} \Pi\left(0_{u}^{+}\right)-X^{1} \Sigma_{g}^{+}\)photoexcitation sequence. The analysis of the 374 transitions in the \(

A pump/probe microwave-optical double resonance experiment has been performed on calcium monohydroxide, \(\mathrm{CaOH}\), using the technique of laser ablation/supersonic expansion for production of the compound. Frequencies associated with the three lowest pure rotational transitions in the \((0,0