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arxiv: 1408.6820 · v1 · pith:WKE6YY2N · submitted 2014-08-28 · cond-mat.str-el · cond-mat.mtrl-sci· cond-mat.supr-con· quant-ph

Emergence of p+ip superconductivity in 2D strongly correlated Dirac fermions

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classification cond-mat.str-el cond-mat.mtrl-scicond-mat.supr-conquant-ph
keywords stateapproachcorrelateddiscoveryfieldquantumstronglytowards
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Searching for $p+ip$ superconducting(SC) state has become a fascinating subject in condensed matter physics, as a dream application awaiting in topological quantum computation. In this paper, we report a theoretical discovery of a $p+ip$ SC ground state (coexisting with ferromagnetic order) in honeycomb lattice Hubbard model with infinite repulsive interaction at low doping($\delta< 0.2$), by using both the state-of-art Grassmann tensor product state(GTPS) approach and a quantum field theory approach. Our discovery suggests a new mechanism for $p+ip$ SC state in generic strongly correlated systems and opens a new door towards experimental realization. The $p+ip$ SC state has an instability towards a potential non-Fermi liquid with a large but finite $U$. However, a small Zeeman field term stabilizes the $p+ip$ SC state. Relevant realistic materials are also proposed.

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