Nanometer structures: theory, modeling, and simulation
This volume is a researcher's reference handbook to the many aspects of nanometer structures. Although intended as a source for the serious researcher, novices will find a great deal of interesting content. The theories covered include nanostructured thin films, photonic bandgap structures, quantum dots, carbon nanotubes, atomistic techniques, nanomechanics, nanofluidics, and quantum information processing. Modeling and simulation research on these topics have now reached a stage of maturity to merit inclusion as well.
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algorithm amplitude angle applications approximation atomistic atoms band gap band structure boundary conditions calculations carbon nanotubes Chem chiral chiral STFs classical coefficients configuration continuum crystal density density functional theory density matrix devices dielectric dispersion dyadic effect eigenvalues elastic electric field electromagnetic field electron element emission ensemble entangled equations exciton experimental FDTD Figure finite flow fluid force frequency Hamiltonian hydrophobic interaction interface Lakhtakia laser lattice layer Lett linear liquid material MD simulations measurement mechanics method microscopic modes molecular dynamics molecules Monte Carlo nanofluidic nanoscale nanostructures nanotechnology nonlinear operator optical parameters particles permission from Ref phase photonic band Phys physical plane wave polarization potential problem propagation properties quantum computation quantum dots quantum information qubit relative permittivity resonance scale sculptured thin films semiconductor spatial surface surfactant techniques temperature tensor theory thermal thermostat tion transition transmission vector wavelength