A quantum simulation framework is developed and demonstrated for energy loss and hadronization of a heavy quark in 1+1D SU(2) lattice gauge theory on 18 qubits of IBM hardware, with results matching classical simulations.
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NLCE+QA on trapped-ion QPU computes TFIM thermodynamic-limit energies and dispersions using ASP, VQE, and a new CX-test.
Dissipative protocols on quantum hardware prepare approximate thermal states for kagome AFIM up to 79 sites and AFHM via simulation, with circuit depth independent of size and linear in inverse temperature.
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Thermodynamic-limit dispersion relations on trapped-ion quantum hardware
NLCE+QA on trapped-ion QPU computes TFIM thermodynamic-limit energies and dispersions using ASP, VQE, and a new CX-test.
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Preparing thermal states of frustrated quantum spin systems using 139 qubits
Dissipative protocols on quantum hardware prepare approximate thermal states for kagome AFIM up to 79 sites and AFHM via simulation, with circuit depth independent of size and linear in inverse temperature.