State-Selective Spectroscopy in a Molecular Nitrogen Discharge by Use of Optogalvanic Double-Resonance Spectroscopy
Author:
Publisher
American Physical Society (APS)
Subject
General Physics and Astronomy
Link
http://harvest.aps.org/v2/journals/articles/10.1103/PhysRevLett.50.1046/fulltext
Reference6 articles.
1. Laser Spectroscopy
2. Optogalvanic double-resonance spectroscopy
3. New Rydberg bands in the visible region and identification of the lowest Rydberg state of the N2 molecule
4. High-resolution optogalvanic study of the c4(0)1Πu, c′5(0)1Σu+, and a″(0)1Σg+ Rydberg states of N2
5. The spectrum of molecular nitrogen
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1. Vacuum ultraviolet photoexcitation and photofragment spectroscopic studies of 14N15N between 109000 and 117500 cm−1;The Journal of Chemical Physics;2021-12-21
2. On a focal point instability in (B3Πg – C3Πu)N2 optogalvanic circuit with hollow cathode;AIP Conference Proceedings;2016
3. Time-dependent description of N2(B3Πg–C3Πu) optogalvanic effect in a hollow cathode discharge;Journal of Quantitative Spectroscopy and Radiative Transfer;2000-03
4. The predissociation mechanisms of the e 1Πu and the b′ 1Σu+ states of N2;The Journal of Chemical Physics;1997-12-08
5. Optogalvanic Effect Enhancement in N2Hollow Cathode Discharge;Spectroscopy Letters;1997-06
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