Twisted Fracton Models in Three Dimensions

ORAL

Abstract

Right now great interests are growing among physicists on a new possibility of quantum phases which support immobile quasiparticles, so-called fractons. Most currently studied fracton models in three dimensions can be viewed as generalized abelian gauge theories. By analogy to Dijkgraaf-Witten topological gauge theories, we notice a simple further generalization of these models by twisting. Based on this observation, we construct a larger family of exactly solvable models, which we dub twisted fracton models. To characterize the corresponding quantum phases, we study their ground state degeneracy under periodic boundary conditions and the topological properties of their quasiparticles. In particular, we see a simple realization of non-abelian fractons.

*H.S. and M.A.M-D. acknowledge financial support from the Spanish MINECO grants FIS2012-33152, FIS2015-67411, and the CAM research consortium QUITEMAD+, Grant No. S2013/ICE-2801. The research of M.A.M.-D. has been supported in part by the U.S. Army Research Office through Grant No. W911N F-14-1-0103.

Presenters

  • Hao Song

    • Departamento de Fisica Teorica I, Universidad Complutense

Authors

  • Hao Song

    • Departamento de Fisica Teorica I, Universidad Complutense

  • Sheng-Jie Huang

    • Department of Physics, University of Colorado Boulder
    • Department of Physics, University of Colorado

  • Abhinav Prem

    • Department of Physics, University of Colorado Boulder
    • Department of Physics, University of Colorado
    • Physics, University of Colorado, Boulder

  • Miguel Angel Martin-Delgado

    • Departamento de Fisica Teorica I, Universidad Complutense
    • Theoretical Physics, Universidad Complutense de Madrid