Electronic properties of materials: an introduction for engineers
This carefully revised third edition on the electrical, optical, magnetic, and thermal properties of materials stresses concepts rather than mathematical formalism. Many examples from engineering practice provide an understanding of common devices and methods.
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absorption alignment amorphous assume band diagram band structure Bohr magnetons Brillouin zone calculated Chapter classical conduction band considered copper core crystal curve damping decreases density diamagnetic dielectric diode direction discussion donor doping effective mass electric field electron bands electron theory electron wave energy bands energy levels excited experimental external magnetic field Fermi energy ferrite ferromagnetic field strength Figure free electrons frequency heat capacity holes impurity increasing insulators interactions interband transitions intrinsic semiconductor ions laser lattice atoms light magnetic field magnetic materials magnetic moments n-type semiconductor number of electrons observed obtained optical properties orbit oscillator paramagnetic particle phonons polarized polymers population inversion postulated potential barrier properties of materials quantum mechanical reciprocal lattice reflectivity region result room temperature Schematic representation Schrodinger equation Section shown in Fig silicon solid solution spectra spin superconducting Table temperature dependence thermal energy unit valence band values vector velocity versus vibration wavelength Wigner-Seitz cell yields