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Nodal d+id pairing and topological phases on the triangular lattice: unconventional superconducting state of Na_xCoO₂cdot yH₂O

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arxiv 0712.1042 v3 pith:MSY4BJEB submitted 2007-12-06 cond-mat.str-el cond-mat.supr-con

Nodal d+id pairing and topological phases on the triangular lattice: unconventional superconducting state of Na_xCoO₂cdot yH₂O

classification cond-mat.str-el cond-mat.supr-con
keywords pairingstatesuperconductingtopologicalcdotfunctionlatticenodal
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We show that finite angular momentum pairing chiral superconductors on the triangular lattice have point zeroes in the complex gap function. A topological quantum phase transition takes place through a nodal superconducting state at a specific carrier density $x_c$ where the normal state Fermi surface crosses the isolated zeros. For spin singlet pairing, we show that the second nearest neighbor $d+id$-wave pairing can be the dominant pairing channel. The gapless critical state at $x_c\simeq0.25$ has six Dirac points and is topologically nontrivial with a $T^3$ spin relaxation rate below $T_c$. This picture provides a possible explanation for the unconventional superconducting state of Na$_x$CoO$_2\cdot y$H$_2$O. Analyzing a pairing model with strong correlation using the Gutzwiller projection and symmetry arguments, we study these topological phases and phase transitions as a function of Na doping.

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