Add to ORKGThe authors examine the critical divergence of the low-frequency conductivity of the noninteracting Fermi glass and interacting electron glass models of the insulating phase of a disordered system as the metallic phase is approached. Results for the two are found to be rather different, which can be tested experimentally. In particular, for the electron glass, there exists a nonvanishing contribution to the dielectric constants from the low-frequency (hopping) conductivity even at low temperatures, which scales with the high-frequency (optical) contribution, and diverges with the same exponent at the insulator-metal transition
Characterizing the frequency-dependent response of amorphous systems and glasses can provide importa...
We present a computer simulation study of a disordered two-dimensional system of localized interacti...
International audienceWe are interested in the out of equilibrium phenomena observed in the electric...
The authors examine the critical divergence of the low-frequency conductivity of the noninteracting ...
The authors examine the critical divergence of the low-frequency conductivity of the noninteracting ...
A critical scaling of the real and imaginary parts of the low-frequency ac conductance of insulating...
A critical scaling of the real and imaginary parts of the low-frequency ac conductance of insulating...
The dielectric-constant matrix of a system of electrons that have been localized by disorder is calc...
We give a description of the phase transition in an ensemble of the electric dipole with internal de...
We give a description of the phase transition in an ensemble of the electric dipole with internal de...
We give a description of the phase transition in an ensemble of the electric dipole with internal de...
Characterizing the frequency-dependent response of amorphous systems and glasses can provide importa...
Abstract. Electrons can crystallize to form a Wigner crystal. This crystallization is particu-larly ...
We give a description of the phase transition in an ensemble of the electric dipole with internal de...
In two dimensions, electron-electron interactions can lead to a Wigner crystal phase, whose properti...
Characterizing the frequency-dependent response of amorphous systems and glasses can provide importa...
We present a computer simulation study of a disordered two-dimensional system of localized interacti...
International audienceWe are interested in the out of equilibrium phenomena observed in the electric...
The authors examine the critical divergence of the low-frequency conductivity of the noninteracting ...
The authors examine the critical divergence of the low-frequency conductivity of the noninteracting ...
A critical scaling of the real and imaginary parts of the low-frequency ac conductance of insulating...
A critical scaling of the real and imaginary parts of the low-frequency ac conductance of insulating...
The dielectric-constant matrix of a system of electrons that have been localized by disorder is calc...
We give a description of the phase transition in an ensemble of the electric dipole with internal de...
We give a description of the phase transition in an ensemble of the electric dipole with internal de...
We give a description of the phase transition in an ensemble of the electric dipole with internal de...
Characterizing the frequency-dependent response of amorphous systems and glasses can provide importa...
Abstract. Electrons can crystallize to form a Wigner crystal. This crystallization is particu-larly ...
We give a description of the phase transition in an ensemble of the electric dipole with internal de...
In two dimensions, electron-electron interactions can lead to a Wigner crystal phase, whose properti...
Characterizing the frequency-dependent response of amorphous systems and glasses can provide importa...
We present a computer simulation study of a disordered two-dimensional system of localized interacti...
International audienceWe are interested in the out of equilibrium phenomena observed in the electric...