高温膨胀引起的Yang-Mills非定界转变

Proceedings of 37th International Symposium on Lattice Field Theory — PoS(LATTICE2019) Pub Date : 2019-12-03 DOI:10.22323/1.363.0065

Jangho Kim, A. Q. Pham, O. Philipsen, J. Scheunert

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引用次数: 5

摘要

高温膨胀是统计力学中研究临界现象的一种分析工具。我们将此方法应用于由四维晶格Yang-Mills用恢复强耦合展开导出的Polyakov环的三维有效理论。特别地，Polyakov环磁化率在有效耦合中被计算为幂级数。然后，Pade分析提供了有效理论中相变的位置，这可以映射回4d杨-米尔斯参数。我们对临界耦合的纯分析结果$\beta_c(N_\tau)$比$10\%$与蒙特卡罗模拟的结果更吻合。对于$SU(2)$的情况，临界指数$\gamma$也被准确地预测，而对于$SU(3)$的一阶性质不能通过Pade分析来识别。该方法可以推广到包括费米子和有限密度。

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The Yang-Mills deconfinement transition from a high temperature expansion

The high temperature expansion is an analytical tool to study critical phenomena in statistical mechanics. We apply this method to 3d effective theories of Polyakov loops, which have been derived from 4d lattice Yang-Mills by means of resummed strong coupling expansions. In particular, the Polyakov loop susceptibility is computed as a power series in the effective couplings. A Pade analysis then provides the location of the phase transition in the effective theory, which can be mapped back to the parameters of 4d Yang-Mills. Our purely analytical results for the critical couplings $\beta_c(N_\tau)$ agree to better than $10\%$ with those from Monte Carlo simulations. For the case of $SU(2)$, also the critical exponent $\gamma$ is predicted accurately, while a first-order nature as for $SU(3)$ cannot be identified by a Pade analysis. The method can be generalized to include fermions and finite density.

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Proceedings of 37th International Symposium on Lattice Field Theory — PoS(LATTICE2019)

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