Figure 9

The comparison with other cases.(a) The conductance curve of the case ε _M =0, Γ _L2=Γ _R2=t ₂=0. (b) The conductance curve of the case Γ _L2=Γ _R2=0. The bias voltage V _b between the two leads is set as \(\mu _{L}=\varepsilon _{\mathrm {F}}+\frac {eV_{b}}{2}\) and \(\mu _{R}=\varepsilon _{\mathrm {F}}-\frac {eV_{b}}{2}\). t ₂=1.0, ε _M =2.0. Other parameters: Γ _L1=Γ _R1=0.5, ε ₁=ε ₂=0. (c, d) The conductance for each process: G _ET is the conductance from electron teleportation process, G _LA is the conductance from local AR process, and G _CA is the conductance from CAR process. (c) Γ _L2=Γ _R1=0 and (d) Γ _L2=Γ _R1=0.5. Other parameters: Γ _L1=Γ _R2=0.5, ε _M =2.0, ε ₁=ε ₂=2.0. The coupling strength between the quantum dot and the MBS t is set as the unit of energy.