Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2009-08-21
Phys. Rev. B 80, 205319 (2009)
Physics
Condensed Matter
Strongly Correlated Electrons
34 pages, 6 figures
Scientific paper
10.1103/PhysRevB.80.205319
We classify all possible 36 gap-opening instabilities in graphene-like structures in two dimensions, i.e., masses of Dirac Hamiltonian when the spin, valley, and superconducting channels are included. These 36 order parameters break up into 56 possible quintuplets of masses that add in quadrature, and hence do not compete and thus can coexist. There is additionally a 6th competing mass, the one added by Haldane to obtain the quantum Hall effect in graphene without magnetic fields, that breaks time-reversal symmetry and competes with all other masses in any of the quintuplets. Topological defects in these 5-dimensional order parameters can generically bind excitations with fractionalized quantum numbers. The problem simplifies greatly if we consider spin-rotation invariant systems without superconductivity. In such simplified systems, the possible masses are only 4 and correspond to the Kekul\'e dimerization pattern, the staggered chemical potential, and the Haldane mass. Vortices in the Kekul\'e pattern are topological defects that have Abelian fractional statistics in the presence of the Haldane term. We calculate the statistical angle by integrating out the massive fermions and constructing the effective field theory for the system. Finally, we discuss how one can have generically non-Landau-Ginzburg-type transitions, with direct transitions between phases characterized by distinct order parameters.
Chamon Claudio
Hou Chang-Yu
Mudry Christopher
Ryu Shinsei
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