Sobelman Atomic Spectra and Radiative Transitions

I Elementary Information on Atomic Spectra.- 1 The Hydrogen Spectrum.- 1.1 Schrödinger’s Equation for the Hydrogen Atom.- 1.1.1 Energy Levels.- 1.1.2 Wave Functions.- 1.2 Series Regularities.- 1.2.1 Radiative Transition Selection Rules.- 1.2.2 Spectral Series of the Hydrogen Atom.- 1.2.3 Hydrogenlike Ions.- 1.3 Fine Structure.- 1.3.1 Velocity Dependence of Electron Mass.- 1.3.2 Spin-Orbit Interaction.- 1.3.3 Fine Structure. Selection Rules.- 1.3.4 Lamb Shift.- 2 Systematics of the Spectra of Multielectron Atoms.- 2.1 Central Field.- 2.1.1 Central Field Approximation.- 2.1.2 Parity of States.- 2.1.3 Systematics of Electron States in a Central Field.- 2.2 Electrostatic and Spin-Orbit Splitting in the LS Coupling Approximation.- 2.2.1 Spectral Terms. LS Quantum Numbers.- 2.2.2 Fine Structure of Terms.- 2.2.3 Finding the Terms of Multielectron Configurations.- 2.2.4 Radiative Transitions.- 2.3 jj Coupling Approximation.- 2.3.1 Various Coupling Schemes.- 2.3.2 Systematics of Electron States with jj Coupling.- 3 Spectra of Multielectron Atoms.- 3.1 Periodic System of Elements.- 3.2 Spectra of the Alkali Elements.- 3.2.1 Term Scheme.- 3.2.2 Series Regularities.- 3.2.3 Fine Structure.- 3.2.4 Copper, Silver, and Gold Spectra.- 3.3 Spectra of the Alkaline Earth Elements.- 3.3.1 He Spectrum.- 3.3.2 Spectra of the Alkaline Earth Elements.- 3.3.3 Zinc, Cadmium, and Mercury Spectra.- 3.4 Spectra of Elements with p Valence Electrons.- 3.4.1 One p Electron Outside Filled Shells.- 3.4.2 Configuration p2.- 3.4.3 Configuration p3.- 3.4.4 Configuration p4.- 3.4.5 Configuration p5.- 3.4.6 Configuration p6.- 3.5 Spectra of Elements with Unfilled d and f Shells.- 3.5.1 Elements with Unfilled d Shells.- 3.5.2 Elements with Unfilled f Shells.- II Theory of Atomic Spectra.- 4 Angular Momenta.- 4.1 Angular Momentum Operator. Addition of Angular Momenta.- 4.1.1 Angular Momentum Operator.- 4.1.2 Orbital Angular Momentum.- 4.1.3 Electron Spin.- 4.1.4 Addition of Two Angular Momenta.- 4.1.5 Addition of Three or More Angular Momenta.- 4.2 Angular Momentum Vector Addition Coefficients.- 4.2.1 Clebsch-Gordan and Associated Coefficients.- 4.2.2 Summary of Formulas for 3j Symbols.- 4.2.3 Racah W Coefficients and 6j Symbols.- 4.2.4 Summary of Formulas for 6j Symbols.- 4.2.5 9j Symbols.- 4.3 Irreducible Tensor Operators.- 4.3.1 Spherical Tensors.- 4.3.2 Matrix Elements.- 4.3.3 Some Examples of Calculation of Reduced Matrix Elements.- 4.3.4 Tensor Product of Operators.- 4.3.5 Matrix Elements with Coupled Angular Momenta.- 4.3.6 Direct Product of Operators.- 5 Systematics of the States of Multielectron Atoms.- 5.1 Wave Functions.- 5.1.1 Central Field Approximation.- 5.1.2 Two-Electron Wave Functions in LSMLMS Representation.- 5.1.3 Two-Electron Wave Functions in mm’SMs Representation.- 5.1.4 Multielectron Wave Functions in a Parentage Scheme Approximation.- 5.1.5 Fractional Parentage Coefficients.- 5.1.6 Classification of Identical Terms of ln Configuration According to Seniority (Seniority Number).- 5.2 Matrix Elements of Symmetric Operators.- 5.2.1 Statement of the Problem.- 5.2.2 F Matrix Elements. Parentage Scheme Approximation.- 5.2.3 F Matrix Elements. Equivalent Electrons.- 5.2.4 Q Matrix Elements. Parentage Scheme Approximation.- 5.2.5 Q Matrix Elements. Equivalent Electrons.- 5.2.6 Summary of Results.- 5.3 Electrostatic Interaction in LS Coupling. Two-Electron Configuration.- 5.3.1 Coulomb and Exchange Integrals.- 5.3.2 Configuration Mixing.- 5.4 Electrostatic Interaction in LS Coupling. Multielectron Configuration.- 5.4.1 Configurations ln and lnl’.- 5.4.2 More Than Half Filled Shells.- 5.4.3 Filled (Closed) Shells.- 5.4.4 Applicability of the Single-Configuration Approximation.- 5.5 Multiplet Splitting in LS Coupling.- 5.5.1 Preliminary Remarks.- 5.5.2 Landé Interval Rule.- 5.5.3 One Electron Outside Closed Shells.- 5.5.4 Configuration ln.- 5.5.5 Parentage Scheme Approximation.- 5.5.6 Fine-Structure Splitting of Levels of He.- 5.5.7 Spin-Spin and Spin-Other Orbit Interactions.- 5.6 jj Coupling.- 5.6.1 Wave Functions.- 5.6.2 Spin-Orbit and Electrostatic Interactions.- 5.7 Intermediate Coupling and Other Types of Coupling.- 5.7.1 Transformations Between LS and jj Coupling Schemes.- 5.7.2 Intermediate Coupling.- 5.7.3 jl Coupling.- 5.7.4 Experimental Date.- 5.7.5 Other Types of Coupling.- 6 Hyperfine Structure of Spectral Lines.- 6.1 Nuclear Magnetic Dipole and Electric Quadrupole Moments.- 6.1.1 Magnetic Moments.- 6.1.2 Quadrupole Moments.- 6.2 Hyperfine Splitting.- 6.2.1 General Character of the Splitting.- 6.2.2 Calculation of the Hyperfine Splitting Constant A.- 6.2.3 Calculation of the Hyperfine Splitting Constant B.- 6.2.4 Radiative Transitions Between Hyperfine-Structure Components.- 6.2.5 Isotope Shift of the Atomic Levels.- 7 The Atom in an External Electric Field.- 7.1 Quadratic Stark Effect.- 7.2 Hydrogenlike Levels. Linear Stark Effect.- 7.3 Inhomogeneous Field. Quadrupole Splitting.- 7.4 Time-Dependent Field.- 7.4.1 Amplitude Modulation.- 7.4.2 The Hydrogen Atom in a Rotating Electric Field.- 8 The Atom in an External Magnetic Field.- 8.1 Zeeman Effect.- 8.2 Paschen-Back Effect.- 8.2.1 Strong Field.- 8.2.2 Splitting of Hyperfine Structure Components in a Magnetic Field.- 9 Radiative Transitions.- 9.1 Electromagnetic Radiation.- 9.1.1 Quantization of the Radiation Field.- 9.1.2 Radiative Transition Probabilities.- 9.1.3 Correspondence Principle for Spontaneous Emission.- 9.1.4 Dipole Radiation.- 9.1.5 Stimulated Emission and Absorption.- 9.1.6 Effective Cross Sections of Absorption and Stimulated Emission.- 9.2 Electric Dipole Radiation.- 9.2.1 Selection Rules, Polarization and Angular Distribution.- 9.2.2 Oscillator Strengths and Line Strengths.- 9.2.3 LS Coupling Approximation. Relative Intensities of Multiplet Components.- 9.2.4 One Electron Outside Closed Shell.- 9.2.5 Multielectron Configurations. Different Coupling Schemes.- 9.2.6 Relative Intensities of Zeeman and Stark Components of Lines.- 9.3 Multipole Radiation.- 9.3.1 Fields of Electric and Magnetic Multipole Moments.- 9.3.2 Intensity of Multipole Radiation.- 9.3.3 Selection Rules.- 9.3.4 Electric Multipole Radiation.- 9.3.5 Magnetic Dipole Radiation.- 9.3.6 Transitions Between Hyperfine Structure Components. Radio Emission from Hydrogen.- 9.4 Calculation of Radiative Transition Probabilities.- 9.4.1 Approximate Methods.- 9.4.2 Three Ways of Writing Formulas for Transition Probabilities.- 9.4.3 Theorems for Sums of Oscillator Strengths.- 9.4.4 Semiempirical Methods of Calculating Oscillator Strengths.- 9.4.5 Electric Dipole Transition Probabilities in the Coulomb Approximation.- 9.4.6 Intercombination Transitions.- 9.5 Continuous Spectrum.- 9.5.1 Classification of Processes.- 9.5.2 Photorecombination and Photoionization: General Expressions for Effective Cross Sections.- 9.5.3 Bremsstrahlung: General Expressions for Effective Cross Sections.- 9.5.4 Radiation and Absorption Coefficients.- 9.5.5 Photorecombination and Photoionization: Hydrogenlike Atoms.- 9.5.6 Photorecombination and Photoionization: Nonhydrogenlike Atoms.- 9.5.7 Bremsstrahlung in a Coulomb Field.- 9.6 Formulas for Q Factors.- 9.6.1 Symmetry and Sum Rules.- 9.6.2 LS Coupling. Allowed Transitions.- 9.6.3.jl Coupling.- 9.7 Tables of Oscillator Strengths and Radiative Transition Probabilities.- 9.7.1 Transition Probabilities for the Hydrogen Atom.- 9.7.2 Radiative Transition Probabilities in the Bates-Damgaard Approximation.- 9.7.3 Oscillator Strengths and Probabilities of Some Selected Transitions.- 9.7.4 Effective Cross Sections and Rates of Photorecombination.- 10 Relativistic Corrections in the Spectroscopy of Multicharged Ions.- 10.1 Dirac Equation. Pauli Equation.- 10.1.1 Dirac Equation.- 10.1.2 Electron Spin.- 10.1.3 Non-Relativistic Approximation. Pauli Equation.- 10.2 Central Field.- 10.2.1 Non-Relativistic Approximation.- 10.2.2 Second Approximation with Respect to v/c. Fine Splitting.- 10.2.3 Dirac Equation for a Central Field.- 10.2.4 Coulomb Field. Energy Levels, Fine Splitting.- 10.2.5 Coulomb Field. Radial Functions.- 10.3 Relativistic Corrections.- 10.3.1 Calculation of Some Radial Integrals.- 10.3.2 Hyperfine Splitting Constant A.- 10.3.3 Hyperfine Splitting Constant B.- 10.3.4 Nucleus Finite-Size Correction.- 10.3.5 Radiative Corrections. Lamb Shift.- 11 Spectra of Multicharged Ions.- 11.1 Energy Levels.- 11.2 Forbidden Transitions.- 11.2.1 H-like Ions.- 11.2.2 He-like Ions.- 11.3 Satellite Structure.- References.- List of Symbols.