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Calculations of Oscillator Strengths and Excitation Energies for Valence-Shell States of Mg and Ca.

机译：mg和Ca价价态的振子强度和激发能的计算。

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Oscillator strengths and excitation energies are computed for electric dipole transitions connecting valence-shell states of MgI and of CaI. The method used is the variational solution of two-particle Bethe-Goldstone equations for both initial and final states of each transition, with a common frozen core determined by matrix Hartree-Fock calculation. Results are compared with available theoretical and experimental data, and are found to be in excellent agreement with previous results for the two resonance transitions. For Mg, the computed length and velocity oscillator strengths are closer together for most transitions considered than are previous theoretical values, and fall within their range. For CA, the computed results confirm conclusions about valence-shell even-parity states inferred from analysis of recently observed two-photon ionization spectra. (Author)

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Nesbet, R. K.; Jones, H. W.;
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年度 1977
页码 1-6
总页数 6
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Molecular energy levels; Magnesium compounds; Calcium compounds; Dipole moments; Iodides; Oscillators; Excitation; Transitions; Two photon absorption; Quantum theory; Reprints; Oscillator strengths; Hartree-Fock approximation; Numerical analysis; Electron transitions;

机译：分子能级;镁化合物;钙化合物;偶极矩;碘化物;振荡器;激发;跃迁;双光子吸收;量子理论;重印;振荡器强度; Hartree-Fock近似;数值分析;电子跃迁;

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Calculations of Oscillator Strengths and Excitation Energies for Valence-Shell States of Mg and Ca.

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