Localization of Electronic States. Percolation Theory. Hopping Conduction in a Magnetic Field. Activation Energy for Hopping Conduction. Variable-Range Hopping Conduction. Electronic States in Heavily Doped Semiconductors. Back Matter Pages About this book Introduction First-generation semiconductors could not be properly termed "doped- they were simply very impure. Uncontrolled impurities hindered the discovery of physical laws, baffling researchers and evoking pessimism and derision in advocates of the burgeoning "pure" physical disciplines.
The generalization of random Schrodinger operators to non-zero constant magnetic field are operators of the form H V! IR d is a non-random ve Documents: Advanced Search Include Citations. Authors: Advanced Search Include Citations. Add To MetaCart. Citation Context For an ergodic rando For an ergodic random potential satisfying a simple moment condition, we give a detailed proof that the infinite-volume limits of spatial eigenvalue concentrations of finite-volume operators with different boundary conditions exist almost surely.
Since all these limits are shown to coincide with the expectation of the trace of the spatially localized spectral family of the infinite-volume operator, the integrated density of states is almost surely non-random and independent of the chosen boundary condition. Our proof of the. Abstract - Cited by 23 4 self - Add to MetaCart this paper is to contribute to the understanding of spectral localization for random Schrdinger operators in multi-dimensional Euclidean space.
Phys , The Casimir force between real materials: experiment and theory by G. Klimchitskaya, U. Critical charge transport networks in doped organic semiconductors. Communications Materials. Intrinsic organic small molecule and polymer materials are insulators. The discovery that polymers can be made highly conductive by doping has therefore sparked strong interest in this novel class of … Expand.
A size-dependent nanoscale metal-insulator transition in random materials. Materials Science, Physics. Nature nanotechnology. Wigner solid in two-dimensional electron system in silicon in the extreme quantum limit?
Chemistry, Materials Science. In the extreme quantum limit, the phase boundary in the H, Ns plane has been found to be a straight … Expand. Metallization and superconductivity in doped metal-oxide layered compounds. Abstract A new approach is proposed to the problem of the superconducting state in layered metal-oxide materials, essentially using the fact that the concentration of charge carriers in them is equal … Expand.
In this chapter, we first review the fundamental theoretical concepts of mesoscopic transport for low-dimensional systems and disordered materials. Empha- sis is put on the Landauer formulation of … Expand. Quantum metallicity in a two-dimensional insulator. Related Papers.
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