Atomic, molecular, and optical physics handbook
Gordon W. F. Drake
AIP Press, 1996 - Science - 1095 pages
This authoritative resource is the first single-volume work to bridge the interrelated disciplines of atomic, molecular, and optical physics. Along with a summary of key ideas, techniques, and results, you will find diagrams of apparatus, and helpful graphs and tables of data. Contributions from over 100 authors -- all leaders in their respective disciplines -- cover a broad range of topics, including mathematical methods: scattering theory, equipment, and experiments; quantum optics; as well as applications to plasmas, astrophysics, global change, combustion, surface physics, radiation physics, and more.
74 pages matching electron in this book
Results 1-3 of 74
What people are saying - Write a review
We haven't found any reviews in the usual places.
Angular Momentum Theory
Angular Momentum Theory 6
87 other sections not shown
absorption adiabatic amplitude angle angular momentum approximation atomic beam calculations channel Chap Chem classical clusters coefficients collision complex components configuration continuum coordinates correlation corresponding Coulomb coupling cross section defined denotes density density matrix diagrams dipole dissociation edited effects eigenvalues electron emission energy equation excitation expansion factor field finite frequency fullerenes given Green's function Hamiltonian Hartree-Fock hydrogenic hyperfine hyperfine structure integral interaction ionization laser Lett linear magnetic matrix elements method molecular molecules noble gas nuclear nucleus obtained optical orbital oscillator parameters particle perturbation perturbation theory phase photoionization photon Phys Physics polarization potential potential energy surface projectile Quantum Mechanics quantum numbers radiation radiative reaction Recombination relativistic resonance rotational Rydberg Rydberg atoms scattering Sect shift solution spectra spectroscopy spin structure symmetry target theoretical theory tion transition values vector vibrational wave function wavelength York