Josephson effect for SU(4) carbon nanotube quantum dots
arXiv:0909.1213 · doi:10.1103/PhysRevB.81.012502
Abstract
We present the theory of the Josephson effect in nanotube dots where an SU(4) symmetry can be realized. We find a remarkably rich phase diagram that significantly differs from the SU(2) case. In particular, Ï-junction behavior is largely suppressed. We analytically obtain the Josephson current in various parameter regions: (i) in the Kondo regime, covering the full crossover from SU(4) to SU(2), (ii) for weak tunnel couplings, and (iii) for large BCS gap. The transition between these regions is studied numerically.
4 pages, 3 figures, published version