Quantum computation of Quantum Electrodynamics beyond one spatial dimension

          @misc{ scivideos_oai:cds.cern.ch:3025678,
            doi = {},
            url = {https://videos.cern.ch/record/3025678},
            author = {},
            keywords = {},
            language = {en},
            title = {Quantum computation of Quantum Electrodynamics beyond one spatial dimension},
            publisher = {},
            year = {2026},
            month = {may},
            note = {oai:cds.cern.ch:3025678 see, \url{https://scivideos.org/cern-cds/3025678}}
          }
          

Abstract

Quantum computing provides a promising framework for simulating strongly coupled gauge theories relevant to high-energy physics. In this talk, I will discuss quantum simulations of lattice gauge theories, focusing on the Schwinger model implementing on higher than one spatial dimension. I will outline gauge-invariant encodings and circuit implementations suitable for near-term quantum hardware, and comment on prospects for using quantum algorithms to study real-time dynamics and other regimes challenging for classical methods.

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