Rotational distribution of N2+ fragments from 355 nm photolysis of N4+

Lessen, D.; Nizkorodov, S.; Knupfer, P.; Ruchti, T.; Bieske, E. J.; Maier, J. P.

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Elsevier, Chemical Physics Letters, 1-2(226), p. 187-192

DOI: 10.1016/0009-2614(94)00698-9

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Rotational distribution of N2+ fragments from 355 nm photolysis of N4+

Journal article published in 1994 by D. Lessen, S. Nizkorodov, P. Knupfer, T. Ruchti, E. J. Bieske

, J. P. Maier

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Abstract

The vibrational and rotational status of X 2Σg+ N2+ fragments from the 355 nm photolysis of N4+ has been assessed using two complementary experimental techniques. Evidence from both methods suggests that the N2+ photofragments are predominately in the υ=0 vibrational level of the electronic ground state and can possess considerable rotational energy (up to 3000 cm−1).

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Rotational distribution of N2+ fragments from 355 nm photolysis of N4+

Abstract