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Dimensional hierarchy of fermionic interacting topological phases

arXiv:1601.01596 · doi:10.1103/PhysRevLett.117.206405

Abstract

We present a dimensional reduction argument to derive the classification reduction of fermionic symmetry protected topological phases in the presence of interactions. The dimensional reduction proceeds by relating the topological character of a $d$-dimensional system to the number of zero-energy bound states localized at zero-dimensional topological defects present at its surface. This correspondence leads to a general condition for symmetry preserving interactions that render the system topologically trivial, and allows us to explicitly write a quartic interaction to this end. Our reduction shows that all phases with topological invariant smaller than $n$ are topologically distinct, thereby reducing the non-interacting $\mathbb{Z}$ classification to $\mathbb{Z}_n$.

4 pages, 2 figures