Theoretical atomic spectroscopy / Zenonasa Rudzikas.
Rudzikas, Z. B. (Zenonas Bronislavovich)| Call Number | 539.70287 |
| Author | Rudzikas, Z. B. author. |
| Title | Theoretical atomic spectroscopy / Zenonasa Rudzikas. |
| Physical Description | 1 online resource (xxiv, 424 pages) : digital, PDF file(s). |
| Series | Cambridge monographs on atomic, molecular, and chemical physics ; 7 |
| Notes | Title from publisher's bibliographic system (viewed on 05 Oct 2015). |
| Contents | Energy Spectrum of Many-electron Atom. Radiative and Autoionizing Transitions (Initial Formulas). Non-relativistic atomic Hamiltonian and relativistic corrections. Relativistic atomic Hamiltonian. New wave function. Perturbation theory for the energy of an atom. Radiative and autoionizing electronic transitions. Generalized expressions for electric multipole (Ek) transition operators -- Foundations of the Angular Momentum Theory. Graphical Methods. Angular momentum and tensorial algebra. Main quantities of angular momentum theory. Angular momentum theory for relativistic case. Graphical methods: their generalization for perturbation theory -- Description of Complex Electronic Configurations. |
| Summary | This monograph presents a complete guide to the theory of modern spectroscopy of atoms. Atomic spectroscopy continues to be one of the most important subjects of contemporary physics. The book describes the contemporary state of the theory of many-electron atoms and ions, the peculiarities of their structure and spectra, the processes of their interaction with radiation, and some of the applications of atomic spectroscopy. It contains a large number of new results, which have been published mainly in Russian and are therefore almost unknown to western scientists. Primarily a reference for researchers and graduate students in atomic physics and physical chemistry, this work will also be of value to physicists and chemists in other areas who use spectroscopy in their work. |
| Subject | ATOMIC SPECTROSCOPY. |
| Multimedia |
Total Ratings:
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$a Title from publisher's bibliographic system (viewed on 05 Oct 2015).
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$g pt. 1. $t Energy Spectrum of Many-electron Atom. Radiative and Autoionizing Transitions (Initial Formulas). $g 1. $t Non-relativistic atomic Hamiltonian and relativistic corrections. $g 2. $t Relativistic atomic Hamiltonian. New wave function. $g 3. $t Perturbation theory for the energy of an atom. $g 4. $t Radiative and autoionizing electronic transitions. Generalized expressions for electric multipole (Ek) transition operators -- $g pt. 2. $t Foundations of the Angular Momentum Theory. Graphical Methods. $g 5. $t Angular momentum and tensorial algebra. $g 6. $t Main quantities of angular momentum theory. $g 7. $t Angular momentum theory for relativistic case. $g 8. $t Graphical methods: their generalization for perturbation theory -- $g pt. 3. $t Description of Complex Electronic Configurations.
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$a This monograph presents a complete guide to the theory of modern spectroscopy of atoms. Atomic spectroscopy continues to be one of the most important subjects of contemporary physics. The book describes the contemporary state of the theory of many-electron atoms and ions, the peculiarities of their structure and spectra, the processes of their interaction with radiation, and some of the applications of atomic spectroscopy. It contains a large number of new results, which have been published mainly in Russian and are therefore almost unknown to western scientists. Primarily a reference for researchers and graduate students in atomic physics and physical chemistry, this work will also be of value to physicists and chemists in other areas who use spectroscopy in their work.
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$a Cambridge monographs on atomic, molecular, and chemical physics ; $v 7.
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| Summary | This monograph presents a complete guide to the theory of modern spectroscopy of atoms. Atomic spectroscopy continues to be one of the most important subjects of contemporary physics. The book describes the contemporary state of the theory of many-electron atoms and ions, the peculiarities of their structure and spectra, the processes of their interaction with radiation, and some of the applications of atomic spectroscopy. It contains a large number of new results, which have been published mainly in Russian and are therefore almost unknown to western scientists. Primarily a reference for researchers and graduate students in atomic physics and physical chemistry, this work will also be of value to physicists and chemists in other areas who use spectroscopy in their work. |
| Notes | Title from publisher's bibliographic system (viewed on 05 Oct 2015). |
| Contents | Energy Spectrum of Many-electron Atom. Radiative and Autoionizing Transitions (Initial Formulas). Non-relativistic atomic Hamiltonian and relativistic corrections. Relativistic atomic Hamiltonian. New wave function. Perturbation theory for the energy of an atom. Radiative and autoionizing electronic transitions. Generalized expressions for electric multipole (Ek) transition operators -- Foundations of the Angular Momentum Theory. Graphical Methods. Angular momentum and tensorial algebra. Main quantities of angular momentum theory. Angular momentum theory for relativistic case. Graphical methods: their generalization for perturbation theory -- Description of Complex Electronic Configurations. |
| Subject | ATOMIC SPECTROSCOPY. |
| Multimedia |