Testing importance sampling on a quantum annealer for strong coupling SU(3) gauge theory

arXiv (Cornell University) Pub Date : 2023-11-13 DOI:10.48550/arxiv.2311.07209
Kim, Jangho, Luu, Thomas, Unger, Wolfgang
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Abstract

$SU(N_c)$ gauge theories in the strong coupling limit can be described by integer variables representing monomers, dimers and baryon loops. We demonstrate how the D-wave quantum annealer can perform importance sampling on $U(N_c)$ gauge theory in the strong coupling formulation of this theory. In addition to causing a sign problem in importance sampling, baryon loops induce a complex QUBO matrix which cannot be optimized by the D-Wave annealer. Instead we show that simulating the sign-problem free quenched action on the D-Wave is sufficient when combined with a sign reweighting method. As the first test on $SU(3)$ gauge theory, we simulate on $2 \times 2$ lattice and compare the results with its analytic solutions.
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强耦合SU(3)规范理论在量子退火机上的重要抽样测试
强耦合极限下的规范理论可以用表示单体、二聚体和重子环的整数变量来描述。我们演示了d波量子退火器如何在U(N_c)规范理论的强耦合公式中对U(N_c)规范理论进行重要抽样。重子环除了在重要采样中引起符号问题外,还会产生一个复杂的QUBO矩阵,无法通过D-Wave退火器进行优化。相反,我们表明,当与符号重加权方法相结合时,在D-Wave上模拟无符号问题的淬火作用是足够的。作为对$SU(3)$规范理论的第一次检验,我们在$2 \ × 2$格上进行了模拟,并将结果与它的解析解进行了比较。
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arXiv (Cornell University)
arXiv (Cornell University)
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