Gapped condensation in higher categories

[Moved Online] Tensor categories and topological quantum field theories March 16, 2020 - March 20, 2020

March 17, 2020 (09:30 AM PDT - 10:30 AM PDT)

Speaker(s): Theo Johnson-Freyd (Perimeter Institute of Theoretical Physics)

Tags/Keywords

Karoubi completion
TQFTs
higher categories
gapped phases of matter

Primary Mathematics Subject Classification

55-00 - General reference works (handbooks, dictionaries, bibliographies, etc.) pertaining to algebraic topology

Secondary Mathematics Subject Classification

18Cxx - Categories and theories

Video

Johnson-Freyd

Abstract

Idempotent (aka Karoubi) completion is used throughout mathematics: for instance, it is a common step when building a Fukaya category. I will explain the n-category generalization of idempotent completion. We call it "condensation completion" because it answers the question of classifying the gapped phases of matter that can be reached from a given one by condensing some of the chemicals in the matter system. From the TFT side, condensation preserves full dualizability. In fact, if one starts with the n-category consisting purely of \bC in degree n, its condensation completion is equivalent both to the n-category of n-dualizable \bC-linear (n-1)-categories and to an n-category of lattice condensed matter systems with commuting projector Hamiltonians. This establishes an equivalence between large families of TFTs and of gapped topological phases. Based on joint work with D. Gaiotto.

Supplements

No Notes/Supplements Uploaded

Video/Audio Files

Johnson-Freyd

H.264 Video	917_28197_8242_4-Johnson-Freyd.mp4	Download 1080p (4.12 GB) 720p (3.17 GB) 360p (812 MB)

Troubles with video?

Please report video problems to itsupport@slmath.org.

See more of our Streaming videos on our main VMath Videos page.