Physics World Quantum Briefing 2.0
Read our free digital issue of the Physics World Quantum Briefing today.
Home » Events » Emergent Gauge Theories: Bridging Quantum Matter, Quantum Information, and Fundamental Interactions
- Quantum
- |
- Workshop
Emergent Gauge Theories: Bridging Quantum Matter, Quantum Information, and Fundamental Interactions
1—19 June 2026 | Dresden, Germany
Website:
https://www.pks.mpg.de/emergo26
Venue: Max Planck Institute for the Physics of Complex Systems
Organizer: Jörg Schmalian, Tigran Sedrakyan, Srimoyee Sen
Registration deadline: 15/03/2026
Contact: Katrin Lantsch
E-mail:
emergo26@pks.mpg.de
Phone: +49 351-871-1931
Emergent Gauge Theories: Bridging Quantum Matter, Quantum Information, and Fundamental Interactions (emergo) is a three-week seminar program culminating in a workshop (arrival May 31, 2026; departure June 20, 2026; workshop week June 15 – 19, 2026). The program brings together experts in condensed matter/AMO quantum simulation, quantum information science, and high-energy theory to develop shared gauge-theoretic perspectives on correlated quantum matter, lattice gauge theories, and fault-tolerant quantum computation. A core aim is cross-fertilization: using emergent/topological phases and quantum simulators to probe questions such as confinement and chiral dynamics, while leveraging gauge/topology ideas to design robust quantum codes and sharpen connections among entanglement, holography, and quantum gravity.
This will be an on-site seminar and workshop. Talks and posters will only be presented on-site.
Topics include:
– Emergent gauge fields in correlated quantum matter (spin liquids, fractionalization, topological order)
– Confinement vs deconfinement beyond Landau paradigm: what are sharp diagnostics in QCD/QCD-like theories when center symmetry is broken?
– Chiral gauge theories on the lattice: can condensed-matter mechanisms (e.g., symmetric mass generation) enable consistent formulations
– Quantum simulation of lattice gauge theories on programmable hardware (trapped ions, Rydberg arrays, superconducting circuits)
– Classical computation: tensor-network methods for Abelian/non-Abelian lattice gauge theories
– Gauge principles in quantum error correction: stabilizers as local constraints (surface/toric-code paradigms)
– Entanglement diagnostics from QFT/CFT: area laws, scaling at criticality, entanglement Hamiltonians/spectra
– Topological quantum computing: non-Abelian anyons, braiding, and TQFT descriptions (Chern–Simons/BF)
– Topological gauge theories in AMO platforms (e.g., chiral BF/Chern–Simons analogues in cold atoms/BEC settings)
– Gauge/gravity duality & holography for strongly coupled many-body dynamics; black-hole universality ideas
– Quantum error correction – spacetime emergence: how far can code-based viewpoints go in modeling quantum gravity?
Add your event
You can gain extra visibility for your meeting or conference by adding it to the Physics World events calendar.
We accept any event that is relevant to the scientific community, and all events will be moderated prior to publication.
Add your event