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Showing 1–4 of 4 results

Advanced filters: Author: Christine A. Muschik Clear advanced filters

Simulating two-dimensional lattice gauge theories on a qudit quantum computer

Qubit-based simulations of gauge theories are challenging as gauge fields require high-dimensional encoding. Now a quantum electrodynamics model has been demonstrated using trapped-ion qudits, which encode information in multiple states of ions.

Michael Meth
Jinglei Zhang
Martin Ringbauer
ResearchOpen Access25 Mar 2025
Nature Physics

Volume: 21, P: 570-576
Real-time dynamics of lattice gauge theories with a few-qubit quantum computer

A digital quantum simulation of a lattice gauge theory is performed on a quantum computer that consists of a few trapped-ion qubits; the model simulated is the Schwinger mechanism, which describes the creation of electron–positron pairs from vacuum.

Esteban A. Martinez
Christine A. Muschik
Rainer Blatt
Research22 Jun 2016
Nature

Volume: 534, P: 516-519
Large quantum systems tamed

Quantum-computing devices can be more powerful than their classical counterparts, but controlling large quantum systems is difficult. Two studies report work that overcomes this challenge.

Christine Muschik
News & Views29 Nov 2017
Nature

Volume: 551, P: 569-571
SU(2) hadrons on a quantum computer via a variational approach

Quantum simulations of lattice gauge theories are in principle scalable, but their extension to dynamically coupled matter has proven difficult. In this work, the authors use a variational quantum eigensolver to simulate a non-Abelian LGT including the effects of both gauge fields and dynamical fermions.

Yasar Y. Atas
Jinglei Zhang
Christine A. Muschik
ResearchOpen Access11 Nov 2021
Nature Communications

Volume: 12, P: 1-11