双曲弦场理论的拓扑递归

IF 5.4 1区 物理与天体物理 Q1 Physics and Astronomy Journal of High Energy Physics Pub Date : 2024-11-05 DOI:10.1007/JHEP11(2024)005
Atakan Hilmi Fırat, Nico Valdes-Meller
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引用次数: 0

摘要

我们推导了双曲弦顶点的米尔扎哈尼递推关系,并研究了它对封闭弦场理论的影响。我们构造的核心是收缩体积:黎曼曲面模空间中元素具有收缩L≥0的区域的魏尔-彼得森体积。只要L≤2 sinh-1 1,就可以通过修改米尔扎哈尼递推关系证明这些体积满足递推关系。我们将黎曼曲面的裤子分解应用于离壳弦振幅,将这一递推关系推广到双曲弦场理论,并证明高阶顶点是由任意背景下的立方顶点迭代决定的。这种结构意味着封闭弦场理论的解服从二次积分方程。我们以一个存根标量理论为例,说明了我们的方法的实用性。
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Topological recursion for hyperbolic string field theory

We derive an analog of Mirzakhani’s recursion relation for hyperbolic string vertices and investigate its implications for closed string field theory. Central to our construction are systolic volumes: the Weil-Petersson volumes of regions in moduli spaces of Riemann surfaces whose elements have systoles L ≥ 0. These volumes can be shown to satisfy a recursion relation through a modification of Mirzakhani’s recursion as long as L ≤ 2 sinh−1 1. Applying the pants decomposition of Riemann surfaces to off-shell string amplitudes, we promote this recursion to hyperbolic string field theory and demonstrate the higher order vertices are determined by the cubic vertex iteratively for any background. Such structure implies the solutions of closed string field theory obey a quadratic integral equation. We illustrate the utility of our approach in an example of a stubbed scalar theory.

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来源期刊
Journal of High Energy Physics
Journal of High Energy Physics 物理-物理:粒子与场物理
CiteScore
10.30
自引率
46.30%
发文量
2107
审稿时长
1.5 months
期刊介绍: The aim of the Journal of High Energy Physics (JHEP) is to ensure fast and efficient online publication tools to the scientific community, while keeping that community in charge of every aspect of the peer-review and publication process in order to ensure the highest quality standards in the journal. Consequently, the Advisory and Editorial Boards, composed of distinguished, active scientists in the field, jointly establish with the Scientific Director the journal''s scientific policy and ensure the scientific quality of accepted articles. JHEP presently encompasses the following areas of theoretical and experimental physics: Collider Physics Underground and Large Array Physics Quantum Field Theory Gauge Field Theories Symmetries String and Brane Theory General Relativity and Gravitation Supersymmetry Mathematical Methods of Physics Mostly Solvable Models Astroparticles Statistical Field Theories Mostly Weak Interactions Mostly Strong Interactions Quantum Field Theory (phenomenology) Strings and Branes Phenomenological Aspects of Supersymmetry Mostly Strong Interactions (phenomenology).
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