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Full Description
The phenomenon of hopping, in which a particle executes a series of jumps between discrete states, has a fundamental role in a wide range of solid state transport phenomena. In these proceedings acknowledged experts in the field describe important recent progress in developing the phenomenology of hopping processes and applying it to different systems, including crystalline and amorphous semiconductors, glasses, polymers, mesoscopic conductors and high temperature superconductors.
Contents
Hopping and dissipative quantum tunnelling of orientational defects in ice, G. Careri; hopping in amorphous gallium antimonide, S.V. Demishev; Coulomb gap and transport in classical electron liquid, A.L. Efros; disorder induced small polaron formation and hopping, D. Emin; percolative aspects of viscous flow near the glass transition, A. Hunt; hopping magnetotransport in a delta doping layer, F. Koch; low energy excitations and relaxation in the Coulomb gap, M. Pollak; hopping in mesoscopic systems, D. Popovich and A. Fowler; an empirical scaling between longitudinal and transverse transport, M. Sarachik; hopping transport and the quantum hall effect, B.I. Shklovskii; magnetoresistance in VRH near the metal/insulator and super-conductor/insulator transitions, B. Spivak; nonlinear optical coherence and phonons, P. Thomas. (Part contents).
