On the existence of heterotic-string and type-II-superstring field theory vertices

IF 1.6 3区数学 Q1 MATHEMATICS

Journal of Geometry and Physics Pub Date : 2024-08-30 DOI:10.1016/j.geomphys.2024.105307

Seyed Faroogh Moosavian , Yehao Zhou

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引用次数: 0

Abstract

We consider the problem of the existence of heterotic-string and type-II-superstring field theory vertices in the product of spaces of bordered surfaces parameterizing the left- and right-moving sectors of these theories. It turns out that this problem can be solved by proving the existence of a solution to the BV quantum master equation in moduli spaces of bordered spin-Riemann surfaces. We first prove that for arbitrary genus

Neveu–Schwarz boundary components, and

Ramond boundary components such solutions exist. We also prove that these solutions are unique up to homotopy in the category of BV algebras. Furthermore, we prove that there exists a map in this category under which these solutions are mapped to fundamental classes of Deligne-Mumford stacks of associated punctured spin-Riemann surfaces. These results generalize the work of Costello on the existence of a solution to the BV quantum master equations in moduli spaces of bordered Riemann surfaces which, through the work of Sen and Zwiebach, are related to the existence of bosonic-string vertices, and their relation to fundamental classes of Deligne-Mumford stacks of associated punctured Riemann surfaces. Using the existence of solutions to the BV quantum master equation in moduli spaces of spin-Riemann surfaces, we prove that heterotic-string and type-II-superstring field theory vertices, for arbitrary genus

and an arbitrary number of any type of boundary components, exist. Furthermore, we prove the existence of a solution to the BV quantum master equation in spaces of bordered

N = 1

super-Riemann surfaces for arbitrary genus

Neveu–Schwarz boundary components, and

Ramond boundary components.

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论异弦和II型超弦场论顶点的存在

我们考虑了异弦和 II 型超弦场论顶点在参数化这些理论的左移和右移扇区的有边表面空间的乘积中的存在问题。事实证明，这个问题可以通过证明在有边自旋-黎曼曲面的模空间中存在 BV 量子主方程的解来解决。我们首先证明，对于任意属、Neveu-Schwarz 边界分量和 Ramond 边界分量，都存在这样的解。我们还证明了这些解在 BV 代数范畴中是唯一的同调解。此外，我们还证明了在这一范畴中存在一个映射，在此映射下，这些解被映射到相关点状自旋黎曼曲面的德利涅-芒福堆栈的基本类。这些结果概括了科斯特洛关于有界黎曼曲面模空间中 BV 量子主方程的解的存在性的研究，通过森和兹维巴赫的研究，这些解与玻色弦顶点的存在有关，并与相关点状黎曼曲面的德莱尼-蒙福堆栈基类有关。利用自旋黎曼曲面模空间中 BV 量子主方程的解的存在性，我们证明了对于任意属和任意数量的任意类型边界成分，异弦和 II 型超弦场论顶点是存在的。此外，我们还证明了在任意属、Neveu-Schwarz 边界分量和 Ramond 边界分量的有边 N=1 超黎曼曲面空间中 BV 量子主方程解的存在。

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

Journal of Geometry and Physics 物理-物理：数学物理

CiteScore

2.90

自引率

6.70%

发文量

205

审稿时长

64 days

期刊介绍： The Journal of Geometry and Physics is an International Journal in Mathematical Physics. The Journal stimulates the interaction between geometry and physics by publishing primary research, feature and review articles which are of common interest to practitioners in both fields. The Journal of Geometry and Physics now also accepts Letters, allowing for rapid dissemination of outstanding results in the field of geometry and physics. Letters should not exceed a maximum of five printed journal pages (or contain a maximum of 5000 words) and should contain novel, cutting edge results that are of broad interest to the mathematical physics community. Only Letters which are expected to make a significant addition to the literature in the field will be considered. The Journal covers the following areas of research: Methods of: • Algebraic and Differential Topology • Algebraic Geometry • Real and Complex Differential Geometry • Riemannian Manifolds • Symplectic Geometry • Global Analysis, Analysis on Manifolds • Geometric Theory of Differential Equations • Geometric Control Theory • Lie Groups and Lie Algebras • Supermanifolds and Supergroups • Discrete Geometry • Spinors and Twistors Applications to: • Strings and Superstrings • Noncommutative Topology and Geometry • Quantum Groups • Geometric Methods in Statistics and Probability • Geometry Approaches to Thermodynamics • Classical and Quantum Dynamical Systems • Classical and Quantum Integrable Systems • Classical and Quantum Mechanics • Classical and Quantum Field Theory • General Relativity • Quantum Information • Quantum Gravity