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arxiv: 1912.11117 · v1 · pith:OXRJUIS3new · submitted 2019-12-23 · 🪐 quant-ph · cond-mat.quant-gas· physics.atom-ph

Observation of Domain Wall Confinement and Dynamics in a Quantum Simulator

classification 🪐 quant-ph cond-mat.quant-gasphysics.atom-ph
keywords confinementdomainquantumwallbounddynamicsexcitationsmany-body
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Confinement is a ubiquitous mechanism in nature, whereby particles feel an attractive force that increases without bound as they separate. A prominent example is color confinement in particle physics, in which baryons and mesons are produced by quark confinement. Analogously, confinement can also occur in low-energy quantum many-body systems when elementary excitations are confined into bound quasiparticles. Here, we report the first observation of magnetic domain wall confinement in interacting spin chains with a trapped-ion quantum simulator. By measuring how correlations spread, we show that confinement can dramatically suppress information propagation and thermalization in such many-body systems. We are able to quantitatively determine the excitation energy of domain wall bound states from non-equilibrium quench dynamics. Furthermore, we study the number of domain wall excitations created for different quench parameters, in a regime that is difficult to model with classical computers. This work demonstrates the capability of quantum simulators for investigating exotic high-energy physics phenomena, such as quark collision and string breaking.

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