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Quantum Algebra/Quantum Topology Seminar - Maissam Barkeshli

Quantum Algebra & Quantum Topology Seminar
November 21, 2019
1:50PM - 2:50PM
Cockins Hall 240

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Add to Calendar 2019-11-21 13:50:00 2019-11-21 14:50:00 Quantum Algebra/Quantum Topology Seminar - Maissam Barkeshli Title: G-crossed braided tensor categories and symmetry-enriched topological states of matter Speaker: Maissam Barkeshli - University of Maryland Abstract: G-crossed braided tensor categories have recently found applications in the study of quantum many-body states of matter, by providing a mathematical framework to characterize the properties of symmetry defects in a topological quantum state of matter with symmetry group G and in (2+1) space-time dimensions. In this talk, I will begin by reviewing the skeletonization of G-crossed braided tensor categories in terms of a concrete set of data and the relation to symmetry-enriched topological phases of matter. I will then describe a number of recent results regarding (1) how to compute various cohomological obstructions that arise in the theory of G-crossed BTCs, and (2) how to extend the theory to include space-time reflection symmetries. These issues naturally lead to higher categorical structures and also to an understanding of reflection symmetric topological quantum field theories on non-orientable manifolds. Cockins Hall 240 Department of Mathematics math@osu.edu America/New_York public

Title: G-crossed braided tensor categories and symmetry-enriched topological states of matter

Speaker: Maissam Barkeshli - University of Maryland

Abstract: G-crossed braided tensor categories have recently found applications in the study of quantum many-body states of matter, by providing a mathematical framework to characterize the properties of symmetry defects in a topological quantum state of matter with symmetry group G and in (2+1) space-time dimensions. In this talk, I will begin by reviewing the skeletonization of G-crossed braided tensor categories in terms of a concrete set of data and the relation to symmetry-enriched topological phases of matter. I will then describe a number of recent results regarding (1) how to compute various cohomological obstructions that arise in the theory of G-crossed BTCs, and (2) how to extend the theory to include space-time reflection symmetries. These issues naturally lead to higher categorical structures and also to an understanding of reflection symmetric topological quantum field theories on non-orientable manifolds.

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