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Beilstein J. Nanotechnol. 2020, 11, 225–239, doi:10.3762/bjnano.11.17
Figure 1: (a) Schematic picture of a QD coupled to pure monolayer graphene electrodes at its left (L) and rig...
Figure 2: The DOS in the QD for different values of the chemical potentials at temperature T/D = 5 × 10−6 wit...
Figure 3: The nonequilibrium DOS in the QD at zero magnetic field for different temperatures with U/D → ∞ and...
Figure 4: The nonequilibrium DOS in the QD for different values of the Zeeman energy with U/D → ∞ at temperat...
Figure 5: Differential conductance dI/dV as a function of the bias voltage eV with μR/D = −0.022 at three dif...
Figure 6: Differential conductance dI/dV as a function of the bias voltage eV for different values of the che...
Figure 7: Amplitude of the zero-bias peak as a function of the chemical potential μR for eV = 0 at three diff...
Figure 8: Differential conductance dI/dV as a function of the bias voltage eV for different values of the Zee...
Figure 9: The nonequilibrium DOS in the QD for U/D = 0.069 with μL/D = 25 × 10−3 and μR/D = −9.5 × 10−3 at th...
Figure 10: The nonequilibrium DOS in the QD for different values of the Zeeman energy and finite U at temperat...
Figure 11: Differential conductance dI/dV as a function of the bias voltage eV with μR/D = −9.5 × 10−3 for dif...