English

Majorana fermions on a disordered triangular lattice

Strongly Correlated Electrons 2011-11-02 v3 Other Condensed Matter

Abstract

Vortices of several condensed matter systems are predicted to have zero-energy core excitations which are Majorana fermions. These exotic quasi-particles are neutral, massless, and expected to have non-Abelian statistics. Furthermore, they make the ground state of the system highly degenerate. For a large density of vortices, an Abrikosov lattice is formed, and tunneling of Majorana fermions between vortices removes the energy degeneracy. In particular the spectrum of Majorana fermions in a triangular lattice is gapped, and the Hamiltonian which describes such a system is antisymmetric under time-reversal. We consider Majorana fermions on a disordered triangular lattice. We find that even for very weak disorder in the location of the vortices localized sub-gap modes appear. As the disorder becomes strong, a percolation phase transition takes place, and the gap is fully closed by extended states. The mechanism that underlies these phenomena is domain walls between two time-reversed phases, which are created by flipping the sign of the tunneling matrix elements. The density of states in the disordered lattice seems to diverge at zero energy.

Keywords

Cite

@article{arxiv.1106.6272,
  title  = {Majorana fermions on a disordered triangular lattice},
  author = {Yaacov E. Kraus and Ady Stern},
  journal= {arXiv preprint arXiv:1106.6272},
  year   = {2011}
}

Comments

19 pages, 10 figures

R2 v1 2026-06-21T18:29:54.355Z