Observation of the Ou−(3P1) ion-pair state of Cl2 by perturbation-facilitated optical-optical double resonance

We have reexamined the sequential two-photon absorption of I 2 from the X 1 + g ground state to the lowest D 2 g ( 3 P 2 ) ionpair state using the high vibrational level of the B 3 (0 + u ) state as an intermediate. The double resonance transition to the D 2 g ( 3 P 2 ) state was found to occur thro

We have reinvestigated the \(0_{u}^{+}\left({ }^{3} P_{0}\right)\) ion-pair state of \(\mathrm{Cl}_{2}\) correlating to \(\mathrm{Cl}^{-}\left({ }^{1} S\right)+\mathrm{Cl}^{+}\left({ }^{3} P_{0}\right)\) by optical-optical double resonance. The \(\mathrm{Cl}_{2}\) molecules in the \(X^{1} \Sigma_{g}

The optical-optical double-resonance spectroscopy is applied to study the ion-pair states of \(\mathrm{Cl}_{2}\) correlating to \(\mathrm{Cl}^{-}\left({ }^{1} S\right)+\mathrm{Cl}^{+}\left({ }^{3} P_{2}\right)\). In the \((1+2)\) photoexcitation sequence, we gain access to the \(0_{u}^{+}\left({ }^{

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 \(

We have analyzed the 1 u ( 1 D) and 2 u ( 1 D) ion-pair states of I 2 by perturbation-facilitated optical-optical double resonance using the B 3 (0 + u ) ∼ c1 g mixing state as an intermediate. The double-resonance spectra exhibited the strong vibrational progression to the 1 u ( 1 D) state in accor