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Current noise spectrum in a solvable model of tunneling Fermi-edge singularity

Research paper by V. V. Ponomarenko, I. A. Larkin

Indexed on: 29 May '18Published on: 29 May '18Published in: arXiv - Physics - Strongly Correlated Electrons



Abstract

We consider tunneling of spinless electrons from a single channel emitter into an empty collector through an interacting resonant level of the quantum dot (QD). When all Coulomb screening of sudden charge variations of the dot during the tunneling is realized by the emitter channel, the system is mapped onto an exactly solvable model of a dissipative qubit. The qubit density matrix evolution is described with a generalized Bloch equation which permits us to count the tunneling electrons and find the charge transfer statistics. The two generating functions of the counting statistics of the charge transferred during the QD evolutions form its stationary and empty state have been expressed through each other. It is used to calculate the spectrum of the steady current noise and demonstrate occurrence of the bifurcation of its single zero-frequency minimum into two finite-frequency dips due to the qubit coherent dynamics.