Gustavo A. Lara, Pedro A. Orellana, Enrique V. Anda
Published 2002-02-01, updated 2002-11-22Version 2
Electron tunneling through a non-equilibrium double quantum dot in the Kondo regime is studied. In the region of negative differential resistance, it is shown that this system possesses a complex response to the applied potential characterized by a tristable solution for the current. Increasing the applied potential or reducing the inter-dot coupling, the system goes through a transition from a coherent inter-dot regime to an incoherent one. The different nature of the solutions are characterized and it is shown that the effects of the asymmetry in the dot-lead coupling can be used to control the region of multistability. The mean-field slave-boson formalism is used to obtain the solution of the problem.
Comments: 4 pages, 4 figures. To appear in Sol. State. Comm
Transmission in double quantum dots in the Kondo regime: Quantum-critical transitions and interference effects
Theory of non-equilibrium transport in the SU(N) Kondo regime
Controlled dephasing of a quantum dot in the Kondo regime
