Titre : |
Springer Handbook of Atomic, Molecular, and Optical Physics |
Type de document : |
texte imprimé |
Auteurs : |
Gordon W.F. Drake, Auteur |
Mention d'édition : |
2nd Ed. |
Editeur : |
New York : Springer Verlag |
Année de publication : |
2023 |
Importance : |
lXX-1415 P. |
Présentation : |
Relie, couv. en coul : Graph., ill., tabl., fig. |
Format : |
29 cm |
ISBN/ISSN/EAN : |
978-3-030-73892-1 |
Langues : |
Anglais (eng) |
Catégories : |
(01.30.USU) Usuals Comprend notamment les dictionnaires, les Tables mathematiques, atomiques et moleculaires, les "Handbooks", les constantes et unités, etc.
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Mots-clés : |
Atomic physics Handbooks Molecular physics Optical properties |
Index. décimale : |
01.30.USUAL |
Résumé : |
MATHEMATICAL METHODS : Units and Constants,Angular Momentum Theory,Group Theory for Atomic Shells,Dynamical Groups,Perturbation Theory,Perturbation Theory,Density Matrices,Computational Techniques,Hydrogenic Wave Functions,Software for Computational Atomic and Molecular Physics. - ATOMS : Atomic Spectroscopy,High Precision Calculations for Helium,Atomic Multipoles,Atoms in Strong Fields,Rydberg Atoms,Rydberg Atoms in Strong Static Fields,Precision Oscillator Strength and Lifetime Measurements,Spectroscopy of Ions Using Fast Beams and Ion Traps,Line Shapes and Radiation Transfer,Thomas-Fermi and Other Density-Functional Theories,Atomic Structure: Variational Wave Functions and Properties,Relativistic Atomic Structure,Many-Body Theory of Atomic Structure and Processes,Photoionization of Atoms,Autoionization,Green’s Functions of Field Theory,Quantum Electrodynamics,Tests of Fundamental Physics,Atomic Clocks and Constraints on Variations of Fundamental Constants,Searches for New Particles Including Dark Matter with Atomic, Molecular and Optical Systems,Searches for New Physics. - MOLECULES : Molecular Structure,Molecular Symmetry and Dynamics,Radiative Transition Probabilities,Radiative Transition Probabilities,Time Resolved Molecular Dynamics,Nonreactive Scattering,Gas Phase Reactions,Gas Phase Ionic Reactions Abstract,Clusters,Infrared Spectroscopy,Laser Spectroscopy in the Submillimeter and Far-Infrared Regions,Spectroscopic Techniques: Lasers,Spectroscopic Techniques: Cavity-Enhanced Methods,Spectroscopic Techniques: Ultraviolet. - SCATTERING THEORY : Classical, Quantal and Semiclassical Propagators and Applications to Elastic Scattering, Orientation and Alignment in Atomic and Molecular Collisions,Electron–Atom, Electron–Ion, and Electron–Molecule Collisions,Quantum Defect Theory,Positron Collisions,Adiabatic and Diabatic Collision Processes at Low Energies,Ion–Atom and Atom–Atom Collisions,Ultracold Rydberg Atom–Atom Interaction,Ion–Atom Charge Transfer Reactions at Low Energies,Continuum Distorted Wave and Wannier Methods,Basic Atomic Processes in High-Energy Ion–Atom Collisions,Electron–Ion, Ion–Ion, and Neutral–Neutral Recombination Processes,Dielectronic Recombination,Rydberg Collision Theories,Mass Transfer at High Energies:Thomas Peak,Classical Trajectory and Monte Carlo Techniques,Collisional Broadening of Spectral Lines. - SCATTERING EXPERIMENT : Photodetachment,Photon–Atom Interactions:Low Energy,Photon–Atom Interactions: Intermediate Energies,Electron–Atom and Electron–Molecule Collisions,Ion–Atom Scattering Experiments: Low Energy,Ion–Atom Collisions – High Energy,Reactive Scattering,Ion–Molecule Reactions. - QUANTUM OPTICS : Light-Matter Interaction,Absortion and Gain Spectra,Laser PrinQuantum Properties of Lightciples,Types of Lasers,Nonlinear Optics,Coherent Transients,Multiphoton and Strong-Field Processes,Cooling and Trapping,Quantum Degenerate Gases,De Broglie Optics,Quantum Properties of Light,Entangled Atoms and Fields: Cavity QED,Quantum Optical Tests of the Foundations of Physics,Quantum Information. - APPLICATIONS : Applications of Atomic and Molecular Physics to Astrophysics,Comets,Aeronomy,Applications of Atomic and Molecular Physics to Global Change,Surface Physics,Interface with Nuclear Physics |
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