中文

Josephson current through a nanoscale magnetic quantum dot

强关联电子 2009-11-10 v1

摘要

We present theoretical results for the equilibrium Josephson current through an Anderson dot tuned into the magnetic regime, using Hirsch-Fye Monte Carlo simulations covering the complete crossover from Kondo-dominated physics to π\pi junction behavior in a numerically exact way. Within the `magnetic' regime, U/Γ1U/\Gamma\gg 1 and ϵ0/Γ1\epsilon_0/\Gamma\leq 1, the Josephson current is found to depend only on Δ/TK\Delta/T_K, where Δ\Delta is the BCS gap and TKT_K the Kondo temperature. The junction behavior can be classified into four different quantum phases. We describe these behaviors, specify the associated three transition points, and identify a local minimum in the critical current of the junction as a function of Δ/TK\Delta/T_K.

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引用

@article{arxiv.cond-mat/0405670,
  title  = {Josephson current through a nanoscale magnetic quantum dot},
  author = {F. Siano and R. Egger},
  journal= {arXiv preprint arXiv:cond-mat/0405670},
  year   = {2009}
}