Related papers: Dynamic Transport Characteristics of Side-Coupled Double Quantum-Impurity Systems

Dynamic Transport Characteristics of Side-Coupled Double Quantum-Impurity Systems

URL: http://arxiv.org/abs/2112.08591v1
Date: Thu, 16 Dec 2021 03:28:35 GMT
Title: Dynamic Transport Characteristics of Side-Coupled Double Quantum-Impurity Systems
Authors: YiJie Wang, JianHua Wei
Abstract summary: Transport current behaves like a single quantum dot when the coupling strength is low during or coulomb coupling. The amplitude of the current oscillation exists in positive correlation with $W$ and negative correlation with $U$.
Score: 3.9150069025045164
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: A systematic study is made on the time-dependent dynamic transport characteristics of the side-coupled double quantum-impurity system based on the hierarchical equations of motion. It is found that the transport current behaves like a single quantum dot when the coupling strength is low during tunneling or coulomb coupling. The dynamic current oscillates due to the temporal coherence of the electron tunneling device only when the tunneling transition is coupled. The oscillation frequency of the transport current is related to the step voltage applied by the lead, while the $T$, e-e interaction $U$ and the bandwidth $W$ have little influence. The amplitude of the current oscillation exists in positive correlation with $W$ and negative correlation with $U$. With the increase in coupling $t_{12}$ between impurities, the ground state of the system changes from a Kondo singlet of one impurity to a spin-singlet of two impurities. Moreover, lowering the temperature could promote the Kondo effect to intensify the oscillation of the dynamic current. When only the coulomb transition is coupled, it is found that the two split-off Hubbard peaks move upward and have different interference effects on the Kondo peak at the Fermi surface with the increase in $U_{12}$, from the dynamics point of view.

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