Add to ORKGWe consider resonant transport through a molecular quantum dot coupled to a local vibration mode. Applying the non-equilibrium Green function technique in the polaron representation, we develop a non-perturbative scheme to calculate the electron spectral function of the molecule in the regime of intermediate electron-phonon coupling. With increasing tunneling coupling to the leads, correlations between polaron clouds become more important at relatively high temperature leading to a strong sharpening of the peak structure in the spectral function. The detection of such features in the current-voltage characteristics is briefly discussed
We present explicit kinetic equations for quantum transport through a general molecular quantum dot,...
International audienceTransport through a single molecular conductor is considered, showing negative...
We employ the functional renormalization group to study the effects of phonon-assisted tunneling on ...
We consider resonant transport through a molecular quantum dot coupled to a local vibration mode. Ap...
We present a Green's function based treatment of the effects of electron-phonon coupling on transpor...
To describe the interaction of molecular vibrations with electrons at a quantum dot contacted to met...
We analyze the nonequilibrium transport properties of a quantum dot with a harmonic degree of freedo...
Motivated by recent experiments on electric transport through single molecules and quantum dots, we ...
We investigate the effect of vibrational degrees of freedom on the linear thermoelectric transport t...
The electron-phonon interaction has important effects on the nonequilibrium transport through the se...
Polaron theory of tunneling through a molecular quantum dot (MQD) with strong electron-vibron intera...
Spin-polarized transport through a single-level quantum dot interact-ing with a local phonon mode is...
Abstract. Transport through single molecules differs from transport through more conventional nanost...
We report on a theoretical investigation concerning the polaronic effect on the transport properties...
Spin-dependent tunneling through a quantum dot coupled to one ferromagnetic and one superconducting ...
We present explicit kinetic equations for quantum transport through a general molecular quantum dot,...
International audienceTransport through a single molecular conductor is considered, showing negative...
We employ the functional renormalization group to study the effects of phonon-assisted tunneling on ...
We consider resonant transport through a molecular quantum dot coupled to a local vibration mode. Ap...
We present a Green's function based treatment of the effects of electron-phonon coupling on transpor...
To describe the interaction of molecular vibrations with electrons at a quantum dot contacted to met...
We analyze the nonequilibrium transport properties of a quantum dot with a harmonic degree of freedo...
Motivated by recent experiments on electric transport through single molecules and quantum dots, we ...
We investigate the effect of vibrational degrees of freedom on the linear thermoelectric transport t...
The electron-phonon interaction has important effects on the nonequilibrium transport through the se...
Polaron theory of tunneling through a molecular quantum dot (MQD) with strong electron-vibron intera...
Spin-polarized transport through a single-level quantum dot interact-ing with a local phonon mode is...
Abstract. Transport through single molecules differs from transport through more conventional nanost...
We report on a theoretical investigation concerning the polaronic effect on the transport properties...
Spin-dependent tunneling through a quantum dot coupled to one ferromagnetic and one superconducting ...
We present explicit kinetic equations for quantum transport through a general molecular quantum dot,...
International audienceTransport through a single molecular conductor is considered, showing negative...
We employ the functional renormalization group to study the effects of phonon-assisted tunneling on ...