Phase transitions and composite order in U(1)N lattice London models

IF 3.7 2区物理与天体物理 Q1 Physics and Astronomy Physical Review B Pub Date : 2024-07-31 DOI:10.1103/physrevb.110.035163

Daniel Weston, Karl Sellin, Egor Babaev

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Abstract

The phase diagrams and the nature of the phase transitions in multicomponent gauge theories with an Abelian gauge field are important topics with various physical applications. While an early renormalization-group-based study indicated that the direct transition from a fully ordered to a fully disordered state is continuous for

N = 1

and

N > 183

, recently it was demonstrated that the transition is discontinuous for

N = 2

. We quantitatively study the dependence on

N

of the degree of discontinuity of this transition. Our results suggest that the transition is discontinuous at least up to

N = 7

. Furthermore, we demonstrate that, at increased coupling strength, the phase transitions of the neutral and charged sectors of the model split, which for

N > 2

yields a new phase with composite order. The transition from the composite-order phase to the fully disordered phase is then also discontinuous, at least for

N = 3

and

N = 4

. Via a duality argument, this indicates that van der Waals–type interaction between directed loops may be responsible for the discontinuous phase transitions in these models.

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U(1)N晶格伦敦模型中的相变和复合秩序

具有阿贝尔规场的多分量规理论的相图和相变性质是具有各种物理应用的重要课题。早期基于重正化群的研究表明，在 N=1 和 N>183 时，从完全有序态直接过渡到完全无序态是连续的，而最近的研究表明，在 N=2 时，这种过渡是不连续的。我们定量研究了这种过渡的不连续程度与 N 的关系。结果表明，至少在 N=7 时，过渡是不连续的。此外，我们还证明，当耦合强度增加时，模型的中性和带电部分的相变会分裂，在 N>2 时会产生一个具有复合阶的新相。从复合有序相到完全无序相的转变也是不连续的，至少在 N=3 和 N=4 时是如此。通过二元论证，这表明有向环之间的范德华型相互作用可能是这些模型中不连续相变的原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Physical Review B 物理-物理：凝聚态物理

CiteScore

6.70

自引率

32.40%

发文量

审稿时长

3.0 months

期刊介绍： Physical Review B (PRB) is the world’s largest dedicated physics journal, publishing approximately 100 new, high-quality papers each week. The most highly cited journal in condensed matter physics, PRB provides outstanding depth and breadth of coverage, combined with unrivaled context and background for ongoing research by scientists worldwide. PRB covers the full range of condensed matter, materials physics, and related subfields, including: -Structure and phase transitions -Ferroelectrics and multiferroics -Disordered systems and alloys -Magnetism -Superconductivity -Electronic structure, photonics, and metamaterials -Semiconductors and mesoscopic systems -Surfaces, nanoscience, and two-dimensional materials -Topological states of matter