The 6sς, 6dς, and 7dς Rydberg 1Σ+g States and Two Doubly Excited 1Σ+g States of Na2

With a sensitive space-charge-limited diode ionization detector, we studied 8-10svarsigma, 8-10dvarsigma (1)Sigma(+)(g), and 10-15dpi (1)Pi(g) Rydberg states of Na(2) and obtained their molecular constants for the first time. It is the first successful example of a diode ionization detector that is

The 7 Li 2 5 1 + g and 6 1 + g states have been studied both experimentally and theoretically. Vibrational levels v = 1-26 of the 5 1 + g state and v = 2-14 of the 6 1 + g state were observed using pulsed optical-optical double resonance technique. The 5 1 + g state has an unusual potential energy c

The molecular constants of the previously unobserved 5 and \(6^{\prime} \Sigma_{g}^{+}\)states of \(K_{2}\) are determined and the potential curves are constructed using the Rydberg-Klein-Rees (RKR) method. The absolute vibrational numbering of the \(5^{\prime} \Sigma_{8}^{+}\)state is obtained by c

Accurate Born-Oppenheimer potential energy curves and adiabatic corrections are computed for the six lowest 1 u states of the hydrogen molecule. For the 4 1 u -6 1 u states adiabatic term values of the vibrational levels supported by the potentials and the corresponding rotational constants are give

The extreme ultraviolet-visible double resonant excitation method was applied to the gerade Rydberg states of D 2 molecules. Tunable coherent extreme ultraviolet radiation near 103 nm prepared D 2 in the B 1 ⌺ u ϩ (v ϭ 7, J) state. Visible laser light subsequently brought them to the H 1 ⌺ g ϩ (v ϭ

The levels with \(v \leqslant 14,27 \leqslant J \leqslant 57\) in the \((6 d)^{\prime} \Delta_{g}\) and \((7 d)^{\prime} \Delta_{g}\) Rydberg states of \(\mathrm{Na}_{2}\) have been observed using optical-optical double resonance (OODR) fluorescence excitation spectroscopy. The intermediate levels i