The proceedings contain 87 papers. The topics discussed include: band structure and ballistic conductance of strained Si nanowires; point defect scattering in silicon nanowires; high-order spherical harmonics solution of the Boltzmann equation and noise modeling; a percolative approach to transport and excess noise in polyacene semiconductors; a deterministic Boltzmann solver for GaAs devices based on the spherical harmonics expansion; a Monte Carlo simulation of reproducible hysteresis in RRAM; quantum transport of Dirac fermions in graphene nanostructures; phonon and electron transport in graphene nanoribbons; numerical solution of the Dirac equation for an armchair graphene nanoribbon in the presence of a transversally variable potential; model-comparison study of quasi-ballistic electron transport in nanoscale semiconductor devices; and a reduced-order technique for the acceleration of electronic structure calculations.
2010 14th International Workshop on Computational Electronics
MACUCCI, MASSIMO;BASSO, GIOVANNI
2010-01-01
Abstract
The proceedings contain 87 papers. The topics discussed include: band structure and ballistic conductance of strained Si nanowires; point defect scattering in silicon nanowires; high-order spherical harmonics solution of the Boltzmann equation and noise modeling; a percolative approach to transport and excess noise in polyacene semiconductors; a deterministic Boltzmann solver for GaAs devices based on the spherical harmonics expansion; a Monte Carlo simulation of reproducible hysteresis in RRAM; quantum transport of Dirac fermions in graphene nanostructures; phonon and electron transport in graphene nanoribbons; numerical solution of the Dirac equation for an armchair graphene nanoribbon in the presence of a transversally variable potential; model-comparison study of quasi-ballistic electron transport in nanoscale semiconductor devices; and a reduced-order technique for the acceleration of electronic structure calculations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.