Solid State Physics, Volume 58Henry Ehrenreich, Frans Spaepen Solid state physics is the branch of physics that is primarily devoted to the study of matter in its solid phase, especially at the atomic level. This prestigious serial presents timely and state-of-the-art reviews pertaining to all aspects of solid state physics. |
Common terms and phrases
amplitude annealing Appl applied approach approximation axis barrier bulk calculation coherent compared components conduction band contribution coupling degenerate density dependence described determined devices diffusion direction discussion distribution dominant doping dynamics effect eigenstates electrical electron density electron spin energy epilayer equation exchange experimental experiments external ferromagnetic function g-factor Ga1-xMnxAs GaAs gives growth Hamiltonian heterostructures hole important increasing integral interaction interface interface resistance inversion kinetic layer leads Lett magnetic field materials matrix measurements mechanism metallic momentum non-equilibrium observed obtained occurs operator optical orbitals Phys physical probe quantum region respectively result rotation samples scattering semiconductor shown shows solid spin injection spin lifetimes spin polarization spin relaxation spin-dependent spin-orbit splitting structure studies symmetry temperature term tunnel types valence band values wave vector zero ZnSe zone center