New Rydberg–Rydberg Transitions of the ArH and ArD Molecules: II. Emission fromndandnsStates to the 4pState

We report and rotationally analyze new spectra of the ArH and ArD molecules corresponding to the 0-0 vibrational bands of electronic transitions from the nd and ns states to the 4p Rydberg complex, in united atom notation. In ArD, our observation of the 3dd state, along with previous observations of the 3dp and 3ds states, demonstrates that the components of the 3d state are widely separated and can be treated as Hund's case (b) states, unlike the components of the np and 4 f states, which form closely coupled case (d) Rydberg complexes. The band 4 ds r 4p has also been assigned. The 4dp component is known from previous work of Lipson, but as yet the 4dd component is unknown. Emission from the 6s and 8s states is also analyzed. From the intensities in the rotational structure, there is evidence that the 6s state interacts with the 3ds state. In ArH, we analyze the 0-0 bands of the 3dp r 4p, 3dd r 4p, 4ds r 4p, and 6s r 4p transitions. Unlike the rotational levels of the 5s state, which are heavily broadened by predissociation, the 4p levels of ArH are sharp, so we can perform a more accurate and detailed analysis for this isotope than was possible previously. Qualitative features of the ArH spectra essentially mirror those of ArD, except that emission from the 3ds state was not identified, possibly due to a perturbation particular to this isotope.