Abstract
Experimental results for electron drift velocity and diffusivity in germanium, obtained with the time-of-flight technique in hyperpure material, are presented for temperatures between 8 and 240 K and fields between 1 and V/cm oriented along and directions. An anisotropy of the drift velocity and of the diffusion coefficient is found with the electric field applied along and directions, the latter due to the intervalley diffusion. The effect of the electron-electron interaction in the anisotropy properties has also been investigated. Theoretical Monte Carlo calculations have been performed with a model which includes lower, , nonparabolic bands as well as upper bands at the center of the Brillouin zone and along the directions. Acoustic scattering with proper energy relaxation, optical scattering, and intervalley scattering between equivalent and nonequivalent valleys has been taken into account. Besides drift velocities and diffusion coefficients, other quantities such as mean electron energy, electron distribution function, and valley repopulation have been obtained from the Monte Carlo simulation.
- Received 5 September 1979
DOI:https://doi.org/10.1103/PhysRevB.24.1014
©1981 American Physical Society