Oscillator strengths for transitions involving excited states not lowest of their symmetry: NitrogenI and nitrogenII transitions

15 April 1976

journal article
research article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 64 (8), 3141-3144
https://doi.org/10.1063/1.432650

Abstract

Theoretical f values are reported and compared to experiment for the 1134 and 1200 Å transitions of NI and the 660, 746, 747, and 858 Å transitions of NII. These involve states which are not the lowest of their symmetry. These results are obtained with the nonclosed shell many electron theory of Sinano?lu and the proper application of the Hylleraas–Undheim–MacDonald theorem. The results of this work are in much better agreement with experiment than Hartree–Fock calculations and other results found in previous literature.

Keywords

This publication has 12 references indexed in Scilit:

Theory of atomic structures including electron correlation. V. Excited states not lowest of their symmetry and oscillator strengths in neutral and singly ionized atoms
Physical Review A, 1976
Oscillator strengths for transitions involving excited states not lowest of their symmetry oxygen I and oxygen II transitions
The Journal of Chemical Physics, 1976
Beam-foil spectroscopy and new atomic structure theory with a survey of results since 1970
Nuclear Instruments and Methods, 1973
Oscillator strengths in the beryllium sequence
Journal of Physics B: Atomic and Molecular Physics, 1973
Variational calculations of correlated wavefunctions and energies for ground, low-lying as well as highly excited discrete states in many-electron atoms using a new atomic structure theory including electron correlation
Journal of Physics B: Atomic and Molecular Physics, 1973
Theory of Atomic Structure Including Electron Correlation. I. Three Kinds of Correlation in Ground and Excited Configurations
Physical Review B, 1969
Theory of Atomic Structure Including Electron Correlation
Physical Review Letters, 1968
Some Analytical Self-Consistent Field Functions and Dipole Transition Matrix Elements for Nitrogen and Oxygen and Their Ions.
The Astrophysical Journal, 1964
Accurate Analytical Self-Consistent Field Functions for Atoms. III. The $1 s^{2} 2 s^{m} 2 p^{n}$ States of Nitrogen and Oxygen and Their Ions
Physical Review B, 1963
Numerische Berechnung der 2S-Terme von Ortho- und Par-Helium
The European Physical Journal A, 1930

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