测试 QCD 复杂朗文模拟的动态稳定性

arXiv - PHYS - High Energy Physics - Lattice Pub Date : 2024-05-31 DOI:arxiv-2405.20709

Michael W. Hansen, Dénes Sexty

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引用次数: 0

摘要

我们研究了一个玩具模型的复杂朗格文模拟以及 QCD，并补充了一个动力学稳定项（DS），该稳定项是为了在较低温度下规范复杂化过程而提出的。我们将结果与从零开始的化学势重温进行了比较，以测量包含稳定项所导致的偏差（取决于稳定项的强度）。在高温下，不需要稳定项。在低温条件下（低于褪射转变），DS 项具有有益的稳定作用，而过强的 DS 项会导致系统的相淬火。我们观察到，通过使用 sigmoid 拟合外推至零动态稳定力，可以很好地消除动态稳定的偏差。

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Testing dynamical stabilization of Complex Langevin simulations of QCD

We study complex Langevin simulations of a toy model as well as QCD, supplemented with a dynamical stabilization (DS) term, which was proposed to regularize the complexified process at lower temperatures. We compare the results to reweghting from zero chemical potential to measure the bias that the inclusion of the stabilization term causes, depending on its strength. At high temperatures the stabilization term is not needed. At low temperatures (below deconfinement transition) the DS term has a beneficial stabilizing effect, but too strong DS term causes phase quenching on the system. We observed that the bias of the dynamical stabilization can be to a good accuracy removed by extrapolating to zero dynamical stabilization force using a sigmoid fit.

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arXiv - PHYS - High Energy Physics - Lattice

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