Rovibronic levels of NO2 excited at 514 nm and probed by an optical-optical double-resonance method
Author:
Publisher
Elsevier BV
Subject
Physical and Theoretical Chemistry,General Physics and Astronomy
Reference22 articles.
1. The 7390 Å band of NO2, a vibronically-induced transition within the ground state manifold
2. Rotational analysis of the 7390- and 7937-Å bands of NO2 by means of Fourier transform spectroscopy
3. Analysis of the perturbed NO2 system in the 591.4- to 592.9-nm region based on sub-Doppler laser spectroscopy
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1. Zeeman quantum-beat spectroscopy of NO2: Eigenstate-resolved Landé gF factors near dissociation threshold;The Journal of Chemical Physics;2002-01-08
2. On the energy dependence of the hyperfine interaction in excited states of NO2;The Journal of Chemical Physics;2001-11-15
3. The Rotational Analysis of the Five new Vibronic Bands of No2in the Range 5050-5200 Å;Spectroscopy Letters;2000-09
4. Vibronic analysis of fluorescence spectrum of NO2 D̃ 2B2(0,0,0) in the region of 250–550 nm;The Journal of Chemical Physics;1996-08-08
5. State-resolved dynamics in highly excited states of NO2: collisional relaxation and unimolecular dissociation;Faraday Discussions;1995
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