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Indirect predissociation of highly excited singlet states of N₂

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Heays, Alan
Lewis, B.R.
Gibson, S.T.
Stark, G.
de Oliveira, N.

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EDP Sciences

Abstract

Indirect predissociation of the b′¹Σu⁺(v = 20) level of N₂ is studied experimentally by vacuum-ultraviolet photoabsorption employing synchrotron radiation and a Fourier-transform spectrometer, and interpreted with the aid of a quantitative model of interacting ¹∏u and ¹Σu⁺, bound and unbound states which solves the coupled Schrödinger equation. An observed rotationally-localised peak in the b′(20) predissociation linewidths is identified by the model as arising from an interaction with a strongly predissociated and unobserved bound level of the mixed c₃ ¹∏u and o₃ ¹∏u Rydberg states. This leads to the dissociation of b′(20) into the continuum of the b ¹∏u valence state. The residual observed predissociation of b′ ¹Σu⁺(v = 20) apart from the rotationally-localised peak cannot be explained by a mechanism of ¹∏u and ¹Σu⁺ interaction, and must involve states of higher multiplicity.

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EPJ Web of Conferences: 9th International Conference on Dissociative Recombination: Theory, Experiment, and Applications, DR 2013; FIAP Jean Monnet Convention CentreParis; France; 7 July 2013 through 12 July 2013

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Open Access

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