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CLASSICAL THEORIES OF CONDUCTION AND MAGNETISM
ENERGY BANDS IN SOLIDS
QUANTUM THEORY OF CONDUCTION
4 other sections not shown
absorption applied field arrangement atoms Bloch wall Bohr bonds Calculate Chapter classical concentration conduction band constant covalent bonds current flow defects depletion layer devices diagram diffraction diffusion diode direction dislocations distribution domain doped effect electric field electrons and holes emission emitted emitter energy bands energy gap energy levels equation example excited experimental face centred cubic Fermi level ferromagnetic given giving rise hydrogen atom illustrated in Figure increase integrated circuits intrinsic semiconductor ions kinetic large number lattice magnetic field material metal minority carriers motion n-side n-type negative charge number of electrons orbit oxide p-n junction particles photon planes positive charge potential difference quantum numbers quantum theory radiation recombination region resistance shell shown in Figure silicon single crystal sodium solid state physics specific heat specific heat capacity spins substrate surface thermal transition typical unit cell valence band valence electrons voltage wafer wave function wavelength width X-ray