Rotationally resolved (2+1) REMPI spectra of gerade Rydberg state of molecular iodine: The (v′=0,v″=1) band of the Dalby system

Partly rotationally resolved \((2+1)\) resonance-enhanced multiphoton ionization spectra of the vibrational bands in the Dalby system \(\left(\left[{ }^{2} \mathrm{II}_{1 / 2}\right]_{c} 6 s ; \mathrm{g} \leftarrow X\right)\) of \(\mathrm{I}_{2}(\mathrm{~g})\) have been recorded and analyzed at room

In the paper, we compare the results of our ab initio calculations for the ro-vibrational branching ratios resultmg from a (3 + 1) REMPI of H, via the B 'X: state with the experimental data of Pratt, Poliakoff. Dehmer and Dehmer. These results indicate that non-Franck-Condon effects are less importa

Five vibrational progressions associated with transitions to Rydberg states in molecular bromine are reported in the region 68000 to 73 400 cm-' (8.5 to 9.1 eV). These Rydberg states are accessed by two-photon absorption, and subsequently ionised by a photon of the same frequency. The photoelectron

Results of theoretical studies of rotational branching ratios and photoelectron angular distributions for (2 + 1) resonance-enhanced multiphoton ionization (REMPI) of NO via the Qz, ( 13.5) branch of the C \*H(3px) Rydberg state are reported and compared with recent measurements. Both calculated and

A new singlet-singlet absorption band between Rydberg states of the nitrogen molecule was studied by near-infrared diode laser spectroscopy in the 1.3 mm region. An analysis was made for the band to establish line assignments and determine molecular parameters for both the lower and the upper vibron