Abstract
Abstract Extended measurements are reported for rovibronic transitions between the strongly mixed low-lying X1Σ+, a3Π and A1Π electronic states of the MgO molecule in the 1640–3510 cm−1 region. The measurements were made with the Faraday laser magnetic resonance (LMR) technique utilizing a CO laser and a CO overtone laser. The new observed lines include the A1Π-X1Σ+ (0–0, 0–1, 1–1, 1–2, 1–3, 2–2, 2–4, 3–3) bands as well as the much weaker a3Π0.1–X1Σ+ (0–0, 1–0) intercombination bands. The present highly precise LMR data provide a basis for performing an extensive deperturbation analysis including the spin-orbit, orbit-rotation and Zeeman interactions between the rovibronic levels of the X1Σ+, a3Π and a1Π states. Thereby the present data are combined with reliable earlier experimental results, in particular for the transitions involving higher lying vibronic states, in order to obtain the effective deperturbed molecular constants and perturbation parameters for the three lowest lying electronic states of M...
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