The dynamics of nonequilibrium electron transport in submicron devices has been explored with the technique "Hot Electron Spectroscopy.
Observation of the nonequilibrium optical phonons population associated with electron transport in quantum-cascade lasers is reported.
The dynamics of nonequilibrium phonons in heterolayers, where the carriers are quasi-two-dimensional (2D) while the equilibrium lattice excitations are those of the bulk (3D), require a new theoret
The dynamics of nonequilibrium phonons in heterolayers, where the carriers are quasi-two-dimensional (2D) while the equilibrium lattice excitations are those of the bulk (3D), require a new theore
We have studied the effect of a nonequilibrium population of optical phonons on the energy relaxation of two-dimensional hot electrons in a semiconductor quantum well.
We have studied the effect of a nonequilibrium population of optical phonons on two-dimensional hot electron transport in a strong external electric field.
A theory is developed to describe the scattering function of a diblock copolymer in the presence of a steady homogeneous flow field.
We consider the influence of intense coherent laser fields on the electronic and optical properties of semiconductors.
The recently developed transport theory of two-dimensional carriers has been applied to an electron-lattice-hole system with an applied electric field in a GaAs-Ga sub x Al sub (1- x) As heterojunc
Algorithms for a system which performs in-service nonintrusive measurements of telephone line parameters such as echo path delay, echo attenuation, speech and noise levels are presented in this pap
