利用多点帕代近似寻找 QCD 临界端点

arXiv - PHYS - High Energy Physics - Lattice Pub Date : 2024-05-16 DOI:arxiv-2405.10196

David A. Clarke, Petros Dimopoulos, Francesco Di Renzo, Jishnu Goswami, Christian Schmidt, Simran Singh, Kevin Zambello

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引用次数: 0

摘要

利用多点 Pad\'e 方法，我们在复重子化学势平面上找到了 QCD 压力的李-杨边缘奇点。这些奇点是从物理夸克质量和纯虚化势下 $N_f=2+1$ 晶格 QCD 中计算的净重子数密度的奇点中提取出来的。在猜想的QCD临界端点附近采用适当的缩放反演，我们将$N_\tau=6$晶格上的奇点外推到纯实重子化学势，以估计临界端点（CEP）的位置。我们发现$T^{rm CEP}=105^{+8}_{-18}$~MeV，$\mu_B^{rm CEP} = 422^{+80}_{-35}$~ MeV，这与文献中最近的估计值比较接近。我们发现临界点过渡线的斜率为 $-0.16(24)$。

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Searching for the QCD critical endpoint using multi-point Padé approximations

Using the multi-point Pad\'e approach, we locate Lee-Yang edge singularities of the QCD pressure in the complex baryon chemical potential plane. These singularities are extracted from singularities in the net baryon-number density calculated in $N_f=2+1$ lattice QCD at physical quark mass and purely imaginary chemical potential. Taking an appropriate scaling ansatz in the vicinity of the conjectured QCD critical endpoint, we extrapolate the singularities on $N_\tau=6$ lattices to pure real baryon chemical potential to estimate the position of the critical endpoint (CEP). We find $T^{\rm CEP}=105^{+8}_{-18}$~ MeV and $\mu_B^{\rm CEP} = 422^{+80}_{-35}$~ MeV, which compares well with recent estimates in the literature. For the slope of the transition line at the critical point we find $-0.16(24)$.

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arXiv - PHYS - High Energy Physics - Lattice

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