par Bulnes Cuetara, Gregory 
;Esposito, Massimiliano ;Gaspard, Pierre
Référence Physical Review B : Condensed Matter and Materials Physics, 84, 165114
Publication Publié, 2011
;Esposito, Massimiliano ;Gaspard, Pierre Référence Physical Review B : Condensed Matter and Materials Physics, 84, 165114
Publication Publié, 2011
Article révisé par les pairs
| Résumé : | The counting statistics of electron transport is studied theoretically in a system with two capacitively coupled parallel transport channels. Each channel is composed of a quantum dot connected by tunneling to two reservoirs. The nonequilibrium steady state of the system is controlled by two affinities or thermodynamic forces, each one determined by the two reservoirs of each channel. The status of a single-current fluctuation theorem is investigated starting from the fundamental two-current fluctuation theorem, which is a consequence of microreversibility. We show that the single-current fluctuation theorem holds in the limit of a large Coulomb repulsion between the two parallel quantum dots, as well as in the limit of a large current ratio between the parallel channels. In this latter limit, the symmetry relation of the single-current fluctuation theorem is satisfied with respect to an effective affinity that is much lower than the affinity determined by the reservoirs. This backaction effect is characterized quantitatively. © 2011 American Physical Society. |
