User:Chasmo/Books/Electricity vol1

Electricity vol1 A-L

 * 1s Slater-type function
 * Alpha decay
 * Amsterdam Density Functional
 * Anderson's rule
 * Angular momentum coupling
 * Anode
 * Anomalon
 * Anomalous photovoltaic effect
 * Antiprotonic helium
 * Artificial atom
 * Associated Legendre polynomials
 * Atom
 * Atom vibrations
 * Atomic and molecular astrophysics
 * Atomic electron transition
 * Atomic form factor
 * Atomic fountain
 * Atomic mass
 * Atomic nucleus
 * Atomic number
 * Atomic orbital
 * Atomic physics
 * Atomic radius
 * Atomic recoil
 * Atomic spacing
 * Atomic theory
 * Atomic units
 * Aufbau principle
 * Auger effect
 * Autler–Townes effect
 * Autoionization
 * Azimuthal quantum number
 * Band bending
 * Band diagram
 * Band gap
 * Band offset
 * Binding energy
 * Black-body radiation
 * Bohr magneton
 * Bohr model
 * Bohr radius
 * Boson
 * Bremsstrahlung
 * Caesium oxide
 * Car–Parrinello method
 * Car–Parrinello molecular dynamics
 * Cathode ray
 * Cathodoluminescence
 * Central field approximation
 * Charge radius
 * Charged particle beam
 * Charged-particle equilibrium
 * Classical electron radius
 * Common beta emitters
 * Compton scattering
 * Compton wavelength
 * Conduction band
 * Configuration interaction
 * Core electron
 * Corona discharge
 * Coster–Kronig transition
 * Coulomb barrier
 * Coupled cluster
 * Crystal momentum
 * Cubic harmonic
 * Cubical atom
 * Davisson–Germer experiment
 * Davisson–Germer Prize in Atomic or Surface Physics
 * Delocalized electron
 * Dember effect
 * Density functional theory
 * Density of states
 * Dexter electron transfer
 * Direct and indirect band gaps
 * Doppler cooling
 * Double electron capture
 * Double-slit experiment
 * Ecton (physics)
 * Effective atomic number
 * Effective field theory
 * Electric field
 * Electric field gradient
 * Electron
 * Electron affinity
 * Electron affinity (data page)
 * Electron beam ion trap
 * Electron beam physical vapor deposition
 * Electron beam prober
 * Electron beam technology
 * Electron beam tomography
 * Electron beam-induced current
 * Electron beam-induced deposition
 * Electron bubble
 * Electron capture
 * Electron configuration


 * Electron density
 * Electron diffraction
 * Electron excitation
 * Electron gun
 * Electron liquid
 * Electron magnetic dipole moment
 * Electron multiplier
 * Electron precipitation
 * Electron rest mass
 * Electron scattering
 * Electron shell
 * Electron spectrometer
 * Electron wake
 * Electron-longitudinal acoustic phonon interaction
 * Electronic anticoincidence
 * Electronic band structure
 * Electronic correlation
 * Electronic density
 * Electronic structure
 * Electroscope
 * Electrostatics
 * Emil Rupp
 * Emission spectrum
 * Empty lattice approximation
 * Energy
 * Energy level
 * Fermi level
 * Fermi liquid theory
 * Feshbach resonance
 * Field (physics)
 * Field effect (semiconductor)
 * Fine structure
 * Forbidden mechanism
 * Franck–Hertz experiment
 * Fraunhofer lines
 * Free electron model
 * Free-electron laser
 * Free-fall atomic model
 * G-factor (physics)
 * Gamma ray
 * Geiger–Marsden experiment
 * Geissler tube
 * Generalized valence bond
 * Geonium atom
 * Giant resonance
 * Grotrian diagram
 * Gyromagnetic ratio
 * H-alpha
 * Hadron
 * Halo nucleus
 * Hanle effect
 * Hartree product
 * Hartree–Fock method
 * Helium atom
 * Heymans' Law of Atomic Volume
 * Highly charged ion
 * History of subatomic physics
 * Hollow atoms
 * Hollow-cathode lamp
 * Hot particle
 * Hund's rules
 * Hybrid functional
 * Hydrogen atom
 * Hydrogen-like atom
 * Hyperfine structure
 * Image dissector
 * Independent electron approximation
 * Inert pair effect
 * Infinite divisibility
 * Insulator (electricity)
 * Interacting boson model
 * Interatomic Coulombic decay
 * Introduction to angular momentum
 * Introduction to eigenstates
 * Introduction to entropy
 * Introduction to quantum mechanics
 * Ionization
 * Ionization energy
 * Isolator
 * K-alpha
 * K-beta
 * Kaonic hydrogen
 * Kinetic energy
 * Klystron
 * Kohn–Sham equations
 * Korringa–Kohn–Rostoker approximation
 * Kramers theorem
 * Kubo Gap
 * K·p perturbation theory
 * Lamb Dicke regime
 * Landé g-factor
 * Landé interval rule
 * Laplace expansion (potential)
 * Larmor formula
 * Larmor precession
 * Laser cooling
 * Lattice density functional theory
 * Lead shielding
 * Light
 * Linear combination of atomic orbitals
 * List of quantum chemistry and solid-state physics software
 * Local-density approximation
 * Low-energy electron diffraction
 * Lyman limit
 * Lyman-alpha line