We consider the propagation of electromagnetic radiation through a medium consisting of noninteracting harmonically bound electrons in a blackbody-radiation heat bath. An exact result for the ac conductivity is obtained, which differs from the well-known Drude-Lorentz result by the presence of memory (non-Markovian) effects. In particular, the absorption line is considerably changed in shape, especially away from resonance. Our approachwhich is based on the use of a generalized quantum Langevin equationtranscends the particular model discussed as it enables the conductivity to be calculated directly, in contrast to Kubo-type calculations which require the evaluation of correlation functions as an intermediate step. Furthermore, the model it...
Various aspects of transport coefficients in quantum field theory are reviewed. We describe recent p...
Quantum corrections to the conductivity have been studied in the two types of low-mobility two-dimen...
The two-band memory-function conductivity formula is derived from the quantum kinetic equation in th...
We treat the quantum transport of an interacting system of electrons, impurities, and phonons, in a ...
The influence of an electric field on weak localization is studied by a recently proposed generalize...
The Generalized Quantum Langevin Equation (GLE) approach to the quantum transport of many electron s...
The study of the transport properties is very important for understanding various interactions in el...
The Generalized Quantum Langevin Equation (GLE) approach to the quantum transport of many electron s...
Existing theories of the frequency-dependent magnetoconductivity of a two-dimensional electron gas a...
In a recent paper, Ford, Lewis, and Connell [Phys. Rev. A 37, 4419 (1988)] considered a charged quan...
The Drude formula of ac (frequency-dependent) electric conductivity has been established as a simple...
A critical survey of the present state of the quantum statistical theory of thermal conductivity is ...
The Landauer formula for quantum conductance, based on the modern paradigm: “conduction is trans-mis...
Transport equations for semiconductors can be written with the diffusion term eD1Vn or eV(D2n), wher...
Two generalized quantum Langevin equations (GLE), one for the center-of-mass momentum and the other ...
Various aspects of transport coefficients in quantum field theory are reviewed. We describe recent p...
Quantum corrections to the conductivity have been studied in the two types of low-mobility two-dimen...
The two-band memory-function conductivity formula is derived from the quantum kinetic equation in th...
We treat the quantum transport of an interacting system of electrons, impurities, and phonons, in a ...
The influence of an electric field on weak localization is studied by a recently proposed generalize...
The Generalized Quantum Langevin Equation (GLE) approach to the quantum transport of many electron s...
The study of the transport properties is very important for understanding various interactions in el...
The Generalized Quantum Langevin Equation (GLE) approach to the quantum transport of many electron s...
Existing theories of the frequency-dependent magnetoconductivity of a two-dimensional electron gas a...
In a recent paper, Ford, Lewis, and Connell [Phys. Rev. A 37, 4419 (1988)] considered a charged quan...
The Drude formula of ac (frequency-dependent) electric conductivity has been established as a simple...
A critical survey of the present state of the quantum statistical theory of thermal conductivity is ...
The Landauer formula for quantum conductance, based on the modern paradigm: “conduction is trans-mis...
Transport equations for semiconductors can be written with the diffusion term eD1Vn or eV(D2n), wher...
Two generalized quantum Langevin equations (GLE), one for the center-of-mass momentum and the other ...
Various aspects of transport coefficients in quantum field theory are reviewed. We describe recent p...
Quantum corrections to the conductivity have been studied in the two types of low-mobility two-dimen...
The two-band memory-function conductivity formula is derived from the quantum kinetic equation in th...
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