低温平面聚合膜的四环弹性重正化

arXiv - PHYS - High Energy Physics - Theory Pub Date : 2024-09-18 DOI:arxiv-2409.11773

S. Metayer

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引用次数: 0

摘要

我们对平面聚合膜的低温统计力学模型进行了完整的四环微扰重正化。在基于横向弹性波动的非局部有效挠曲理论中，我们在现有的四个固定点上分析确定了反常弹性临界指数$\eta$，它控制着理论中的所有缩放行为。结果以明显收敛的数列形式获得，从而无需求和即可进行精确估计。我们独立地确认并补充了最近在不同模型中进行的四环工作[Pikelner 2022 EPL 138 17002]的结果。我们还发现与非微扰方法以及软材料和石墨烯的实验有很好的一致性。

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Four loop elasticity renormalization of low temperature flat polymerized membranes

We provide the complete four loop perturbative renormalization of a low temperature statistical mechanics model of flat polymerized membranes. Within a non-local effective flexural theory based on transverse elastic fluctuations, we determine analytically, at the four existing fixed points, the anomalous elasticity critical exponent $\eta$ which controls all scaling behaviors in the theory. Results are obtained as apparently convergent series, enabling precise estimates without resummations. We independently confirm and complement the results of recent four-loop work [Pikelner 2022 EPL 138 17002] carried out in a different model. We also find good agreement with non-perturbative approaches and experiments on soft materials and graphene.

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arXiv - PHYS - High Energy Physics - Theory

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