Jong Soo Lim, Rosa Lopez, Mahn-Soo Choi, Ramon Aguado
Published 2011-04-04Version 1
We demonstrate that curvature-induced spin-orbit (SO) coupling induces a $0-\pi$ transition in the Josephson current through a carbon nanotube quantum dot coupled to superconducting leads. In the non-interacting regime, the transition can be tuned by applying parallel magnetic field near the critical field where orbital states become degenerate. Moreover, the interplay between charging and SO effects in the Coulomb Blockade and cotunneling regimes leads to a rich phase diagram with well-defined (analytical) boundaries in parameter space. Finally, the 0 phase always prevails in the Kondo regime. Our calculations are relevant in view of recent experimental advances in transport through ultra-clean carbon nanotubes.
Comments: 4 (main text) + 10 (appendices) pages, 3 figures
Journal: Phys. Rev. Lett. 107, 196801 (2011)
Disorder-mediated electron valley resonance in carbon nanotube quantum dots
Control of Josephson current by Aharonov-Casher Phase in a Rashba Ring
Tuning the Josephson current in carbon nanotubes with the Kondo effect
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