有限温度大N量规理论中的尺度关系、Zm型去细化相和虚化学势

IF 3.5 4区物理与天体物理 Q1 Physics and Astronomy

Progress of Theoretical and Experimental Physics Pub Date : 2024-09-05 DOI:10.1093/ptep/ptae130

Takehiro Azuma, Takeshi Morita

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引用次数: 0

摘要

我们证明，在有限温度的 SU(N) 规理论中，波里雅科夫环的有效势在大 N 限度上服从一定的温度缩放关系。这一缩放关系强烈地约束了波里雅科夫环有效势中的可能项。此外，通过在几个模型中使用存在虚化学势或虚角速度的有效势，我们发现发生了向 Zm 型去抵消相（Zm 相）的相变，此时波里雅科夫环的特征值呈 Zm 对称分布。Zm 阶段的物理量服从有效势的缩放特性。这些模型包括杨-米尔斯（YM）理论、玻色 BFSS 矩阵模型和 S3 上的 ${mathcal {N}}=4$ 超对称 YM 理论。因此，具有虚化学势的大N规理论的相图非常丰富，稳定的Zm相将无处不在。蒙特卡洛计算也支持这一点。作为一个相关课题，我们讨论了有限体积空间中具有实角速度的大N YM理论的相图。

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A Scaling Relation, Zm-type Deconfinement Phases and Imaginary Chemical Potentials in Finite Temperature Large-N Gauge Theories

We show that the effective potentials for the Polyakov loops in finite temperature SU(N) gauge theories obey a certain scaling relation with respect to temperature in the large-N limit. This scaling relation strongly constrains the possible terms in the Polyakov loop effective potentials. Moreover, by using the effective potentials in the presence of imaginary chemical potentials or imaginary angular velocities in several models, we find that phase transitions to Zm-type deconfinement phases (Zm phase) occur, where the eigenvalues of the Polyakov loop are distributed Zm symmetrically. Physical quantities in the Zm phase obey the scaling properties of the effective potential. The models include Yang-Mills (YM) theories, the bosonic BFSS matrix model and ${\mathcal {N}}=4$ supersymmetric YM theory on S3. Thus, the phase diagrams of large-N gauge theories with imaginary chemical potentials are very rich and the stable Zm phase would be ubiquitous. Monte-Carlo calculations also support this. As a related topic, we discuss the phase diagrams of large-N YM theories with real angular velocities in finite volume spaces.

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来源期刊

Progress of Theoretical and Experimental Physics PHYSICS, MULTIDISCIPLINARY-PHYSICS, PARTICLES & FIELDS

CiteScore

12.00

自引率

5.70%

发文量

148

审稿时长

17 weeks

期刊介绍： Progress of Theoretical and Experimental Physics (PTEP) is an international journal that publishes articles on theoretical and experimental physics. PTEP is a fully open access, online-only journal published by the Physical Society of Japan. PTEP is the successor to Progress of Theoretical Physics (PTP), which terminated in December 2012 and merged into PTEP in January 2013. PTP was founded in 1946 by Hideki Yukawa, the first Japanese Nobel Laureate. PTEP, the successor journal to PTP, has a broader scope than that of PTP covering both theoretical and experimental physics. PTEP mainly covers areas including particles and fields, nuclear physics, astrophysics and cosmology, beam physics and instrumentation, and general and mathematical physics.