Kono, MitsuhikoHe, YabaiLewis, BrentonGibson, StephenBaldwin, KennethOrr, Brian J2023-01-160022-4073http://hdl.handle.net/1885/282790Two-photon absorption is employed to record sub-Doppler molecular-beam spectra of oxygen (16O2), excited to the υ' = 1 level of its (X 2Πg) 5dπ 1Σ+ g Rydberg state above 95 130 cm-1 and detected by photoionisation in a time-of-flight instrument. A nonlinear-optical source generates single-longitudinal-mode pulses of coherent ultraviolet light at ∼210 nm with sufficiently narrow optical bandwidth to enable more detailed lineshape measurements of rovibronic features than had been achieved in an early investigation [Pratt et al., J. Chem. Phys. 1990; 93: 3072-84]. A spectral width of 0.59 ± 0.02 cm-1 is derived by Lorentzian and Beutler-Fano lineshape fits to the prominent PQ13(0) feature, nominally at ∼95 133.7 cm-1 in that spectrum; our estimated width is significantly narrower than the previously reported width of ∼1.0 cm-1. Likewise, the adjacent RQ11(2) feature, nominally at ∼95 143.8 cm-1, is found to be markedly broader (2.2 ± 1.5 cm-1), which is consistent with the supposed effects of J′-dependent predissociation arising from overlap between the (X 2Πg) 5dπ 1Σ+ g Rydberg manifold and other dissociative states. The dependence of the O2 + and O+ ion signals on acceleration voltages, O2-jet stagnation pressure, ultraviolet pulse energy and optical polarisation are also examined.application/pdfen-AU© 2020 The authorshttp://creativecommons.org/licenses/by-nc-nd/4.0/OxygenRydberg spectraLineshapesPredissociationNonlinear-optical light sourceTwo-photon excitation of two Rydberg levels of O<inf>2</inf> above 95 130 cm -1 : Rotational-state dependence of predissociation linewidths202010.1016/j.jqsrt.2020.1068412021-11-28CC BY-NC-ND