Numerical tuning of potential profiles in graphene Josephson junctions shows IcRN and conductance evolving from sub-Sharvin graphene values toward ballistic limits in unipolar regime while remaining graphene-like in tripolar regime.
Rycerz, The Quantum Transport of Dirac Fermions in Se- lected Graphene Nanosystems Away from the Charge Neutral- ity Point, Materials18, 2036 (2025)
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In a graphene disk Josephson junction at tuned magnetic field, IcRN reaches approximately 1.85 Δ0/e with skewness 0.14, consistent between full Dirac-BdG mode-matching and an incoherent scattering model.
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Sub-Sharvin conductance and Josephson effect in graphene
Numerical tuning of potential profiles in graphene Josephson junctions shows IcRN and conductance evolving from sub-Sharvin graphene values toward ballistic limits in unipolar regime while remaining graphene-like in tripolar regime.
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Mesoscopic Josephson effect in graphene disk at magnetic field
In a graphene disk Josephson junction at tuned magnetic field, IcRN reaches approximately 1.85 Δ0/e with skewness 0.14, consistent between full Dirac-BdG mode-matching and an incoherent scattering model.