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Paper detail

Thermalization dynamics of a gauge theory on a quantum simulator

Gauge theories form the foundation of modern physics, with applications ranging from elementary particle physics and early-universe cosmology to condensed matter systems. We perform quantum simulations of the unitary dynamics of a U(1) symmetric gauge field theory and demonstrate emergent irreversible behavior. The highly constrained gauge theory dynamics is encoded in a one-dimensional Bose--Hubbard simulator, which couples fermionic matter fields through dynamical gauge fields. We investigate global quantum quenches and the equilibration to a steady state well approximated by a thermal ensemble. Our work may enable the investigation of elusive phenomena, such as Schwinger pair production and string-breaking, and paves the way for simulating more complex higher-dimensional gauge theories on quantum synthetic matter devices.

preprint2022arXivOpen access
Zhao-Yu ZhouGuo-Xian SuJad C. HalimehRobert OttHui SunPhilipp HaukeBing YangZhen-Sheng YuanJürgen BergesJian-Wei Pan
cond-mat.stat-mechhep-phhep-latcond-mat.quant-gasquant-ph
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Zhao-Yu ZhouGuo-Xian SuJad C. HalimehRobert OttHui SunPhilipp HaukeBing YangZhen-Sheng YuanJürgen BergesJian-Wei Pan

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