Electron-impact excitation of the singlet states of N2. I. The Birge–Hopfield system (b1πu–X1Σ+g)
- 15 July 1980
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 73 (2) , 813-819
- https://doi.org/10.1063/1.440188
Abstract
The absolute emission cross sections for the excitation of the Birge–Hopfield bands (b1πu–X1Σ+g) by electron impact on N2 from threshold to 500 eV are reported. With the exception of the v′=1, 5, and 6 vibrational levels, all other b1πu levels are found to predissociate with a specific predissociation branching ratio, ≳0.99. This forbidden process is a major source of the nitrogen atoms produced by electron‐impact dissociation of N2. Quite remarkably, the b1πu (v′=1) state is only slightly predissociated (v′=1 level has a maximum value of 2.3×10−18 cm2 at 35 eV. The absolute transition probabilities, emission cross sections, and the variation of the electric dipole moment with internuclear distance for 21 BH (1, v′) bands are given.Keywords
This publication has 28 references indexed in Scilit:
- The extreme ultraviolet (750‐1230 A) spectrum of an auroraGeophysical Research Letters, 1977
- A rocket measurement of the extreme ultraviolet dayglowGeophysical Research Letters, 1976
- Molecular Branching-Ratio Method for Intensity Calibration of Optical Systems in the Vacuum UltravioletJournal of the Optical Society of America, 1972
- Excitation of the Electronic States of the Nitrogen Molecule by Electron ImpactPhysical Review A, 1972
- Emission cross sections for NI and NII multiplets and some molecular bands for electron impact on N2Physica, 1971
- Calibration of Vacuum-Ultraviolet Monochromators by the Molecular Branching-Ratio Technique*Journal of the Optical Society of America, 1971
- Dissociative Excitation of Some Oxygen-Containing Molecules: Lifetimes and Electron-Impact Cross SectionsPhysical Review A, 1970
- Band oscillator strengths and transition probabilities for the Lyman and Werner systems of H2, HD, and D2Atomic Data and Nuclear Data Tables, 1969
- Extension of the Branching-Ratio Method for Intensity Calibration between 1500 and 2600 Å*Journal of the Optical Society of America, 1968
- Response Function for Spectral Resolution Enhancement*Journal of the Optical Society of America, 1968