Jun 01, 2026 - Jun 19, 2026; Workshop

Seminar and Workshop "Emergent Gauge Theories: Bridging Quantum Matter, Quantum Information, and Fundamental Interactions"

Event website
Start and end time all-day
Location MPI-PKS Dresden

International Seminar and Workshop
01 - 19 June 2026

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?

About this page

Matthias Vojta
Last modified: Mar 27, 2026