It is shown that at zero temperature, the Kondo effect of the system becomes weaker with the increase of the coupling strength.

Our results show that when the system goes into the strong coupling regime, two parallel dots can be coupled coherently, which leads to an enhanced Kondo effect and a giant persistent current emerging in this system.

The Kondo effect is a well-known and widely studied phenomenon in condensed matter physics.

Photon-assisted Fano effect on DOS in Kondo resonace quantum dot

Fano effect is well known in optics and condensed matter communities.

It is found that in this system,the complex physical properties are determined by the interplay of the Kondo-Fano effect.

With the Fano factor,We analyse the effect of the Fano and the Kondo resonance on the conductance and the variation of the conductance with the spin-polarization strength and the magnetic flux in both the parallel and the antiparallel lead-polarization alignments.

The transmission coefficient of the electron can be modulated up to 100% by the stub,and it is very interesting to find that the Fano resonance effect will be happen at some value of the incidence electron Fermi e.