具有较温和拓扑冻结的完全 QCD

arXiv - PHYS - High Energy Physics - Lattice Pub Date : 2024-04-22 DOI:arxiv-2404.14151

Claudio Bonanno, Giuseppe Clemente, Massimo D'Elia, Lorenzo Maio, Luca Parente

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引用次数: 0

摘要

我们按照哈森布殊（M. Hasenbusch）针对$2d$ $\mathrm{CP}^{N-1}$模型提出的原始建议，在平行调质框架下结合开放和周期边界条件，模拟物理点上的$N_f=2+1$ QCD，这个建议最近也在$4d$ $\mathrm{SU}(N)$纯杨-米尔斯理论中得到了实施和广泛应用。我们的研究表明，使用这种算法可以在零度和有限温度下显著减少拓扑电荷在动态费米子模拟中的自相关时间，最多可减少两个数量级，从而避免拓扑冻结，使晶格间距细至$a \sim 0.02$fm。因此，边界条件并行调温算法的实现有可能极大地推动通过晶格模拟来研究 QCD 真空特性。

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Full QCD with milder topological freezing

We simulate $N_f=2+1$ QCD at the physical point combining open and periodic boundary conditions in a parallel tempering framework, following the original proposal by M. Hasenbusch for $2d$ $\mathrm{CP}^{N-1}$ models, which has been recently implemented and widely employed in $4d$ $\mathrm{SU}(N)$ pure Yang-Mills theories too. We show that using this algorithm it is possible to achieve an impressive reduction of the auto-correlation time of the topological charge in dynamical fermions simulations both at zero and finite temperature up to two orders of magnitude, allowing to avoid topology freezing down to lattice spacings as fine as $a \sim 0.02$ fm. Therefore, this implementation of the Parallel Tempering on Boundary Conditions algorithm has the potential to substantially push forward the investigation of the QCD vacuum properties by means of lattice simulations.

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arXiv - PHYS - High Energy Physics - Lattice

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