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A rotationally resolved REMPI-PES study of the NH radical

1991; Elsevier BV; Volume: 186; Issue: 1 Linguagem: Inglês

10.1016/0009-2614(91)80189-5

1873-4448

E. de Beer, M. Born, C. A. de Lange, Nicholas P. C. Westwood,

Mass Spectrometry Techniques and Applications

The NH radical produced selectively in its a 1Δ excited state by photodissociation of HN3 has been investigated by (2+1) REMPI-PES in the range 246–286 nm. Vibrational and rotational structure is evident in the photoelectron spectra of all the 3p Rydberg states previously assigned, thereby permitting the determination of accurate values for the first ionization energy. New states further to the blue permit determination of the ionization energy to the next ionic state. A 2Σ−. Wavelength scans for the new g1Δ(ν′=1)←a1Δ(ν″=0) transition provided a more precise determination of the spectroscopic constants for the g1Δ(ν′=1) state. The vibrational structure in the kinetic energy scans for this intermediate 3pπ Rydberg state shows a Δν=0 propensity, with the resolved rotational structure exhibiting both a ΔN=even and odd character. The f1Π 3pσ Rydberg state also shows the expected Franck-Condon behaviour, but with a predominant ΔN=even propensity.