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Amorphous topological phases protected by continuous rotation symmetry

Helene Spring, Anton Akhmerov, Daniel Varjas

2021SciPost Physics29 citationsDOIOpen Access PDF

Abstract

Protection of topological surface states by reflection symmetry breaks down when the boundary of the sample is misaligned with one of the high symmetry planes of the crystal. We demonstrate that this limitation is removed in amorphous topological materials, where the Hamiltonian is invariant on average under reflection over any axis due to continuous rotation symmetry. We show that the edge remains protected from localization in the topological phase, and the local disorder caused by the amorphous structure results in critical scaling of the transport in the system. In order to classify such phases we perform a systematic search over all the possible symmetry classes in two dimensions and construct the example models realizing each of the proposed topological phases. Finally, we compute the topological invariant of these phases as an integral along a meridian of the spherical Brillouin zone of an amorphous Hamiltonian.

Topics & Concepts

Reflection symmetryBrillouin zoneTopology (electrical circuits)Amorphous solidScalingInvariant (physics)Hamiltonian (control theory)PhysicsSymmetry protected topological orderBoundary (topology)Symmetry (geometry)Surface statesCondensed matter physicsTopological orderRotation (mathematics)Reflection (computer programming)Surface (topology)Normal surfaceTopological entropy in physicsSymmetry groupTopological quantum numberMirror symmetryComputationTopological Materials and PhenomenaQuantum Mechanics and Non-Hermitian PhysicsQuasicrystal Structures and Properties
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