MONTE-CARLO SIMULATION OF HIGH-FIELD HOPPING ON A BOND-DISORDERED LATTICE

The random walk of a charge carrier on a cubic lattice with binary bond disorder is simulated to study the drift velocity in high electric fields. The occurrence of negative differential conductivity is demonstrated. We have illustrated this with two possibilities of the carrier hopping rate: the Miller-Abrahams rate and the Marcus-Holstein-Emin (polaronic) rate. It is shown that the effective-medium and directed percolation approaches fail to correctly describe this phenomenon. The simulation results are consistent with the picture of field-created traps. © 1995 The American Physical Society.