BEGIN:VCALENDAR CALSCALE:GREGORIAN METHOD:PUBLISH PRODID:-//github.com/rianjs/ical.net//NONSGML ical.net 4.0//EN VERSION:2.0 X-FROM-URL:https://eom.sdu.dk/events/ical/05443879-5ab7-4983-9ba1-2a6a4aeb ac57 X-WR-CALNAME:QM Research Seminar: Categorical Landau Paradigm: Phases\, Tr ansitions and Lattice Models BEGIN:VTIMEZONE TZID:Europe/Copenhagen X-LIC-LOCATION:Europe/Copenhagen BEGIN:DAYLIGHT DTSTAMP:20260602T163438Z DTSTART:20261028T030000 SEQUENCE:0 TZNAME:CEST TZOFFSETFROM:+0200 TZOFFSETTO:+0100 UID:feedc354-f096-44bf-be50-5835019ad054 END:DAYLIGHT BEGIN:STANDARD DTSTAMP:20260602T163438Z DTSTART:20260325T020000 SEQUENCE:0 TZNAME:CEST TZOFFSETFROM:+0100 TZOFFSETTO:+0200 UID:6a1ccb27-7298-4c49-b9e5-472181263904 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DESCRIPTION:[b]Speaker: Apoorv Tiwari [/b](University of Southern Denmark)  \n\n[b]Abstract: [/b]It has recently been understood that finite (intern al) global symmetries in quantum field theory are describe fusion higher categories\, sometimes referred to as global categorical symmetries. In t his talk\, I will introduce a framework based on Symmetry Topological Fie ld Theory (SymTFT) for characterizing and classifying both gapped and gap less phases\, as well as phase transitions in quantum systems with global categorical symmetries. This characterization will be expressed in terms of sets of condensed\, confined\, and deconfined generalized symmetry ch arges\, evoking concepts familiar from superconductivity. Furthermore\, I will demonstrate how the SymTFT data can be transformed into an ultravio let (UV) lattice model—such as an anyon chain model in 1+1 dimensions or a fusion surface model in 2+1 dimensions—that realizes these phases and t ransitions in the infrared (IR) limit. DTEND:20241118T150000Z DTSTAMP:20260602T163438Z DTSTART:20241118T140000Z LOCATION:Syddansk Universitet\, Campusvej 55\, 5230\, Odense M SEQUENCE:0 SUMMARY:QM Research Seminar: Categorical Landau Paradigm: Phases\, Transit ions and Lattice Models UID:a44d5f5c-750d-4755-b77f-f079431997a4 END:VEVENT END:VCALENDAR