Noncommutative branch-cut quantum gravity with a self-coupling inflaton scalar field: The wave function of the Universe

IF 1.1 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
Peter O. Hess, Fridolin Weber, Benno Bodmann, José de Freitas Pacheco, Dimiter Hadjimichef, Marcelo Netz-Marzola, Geovane Naysinger, Moisés Razeira, César A. Zen Vasconcellos
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引用次数: 0

Abstract

This article focuses on the implications of a noncommutative formulation of branch-cut quantum gravity. Based on a mini-superspace structure that obeys the noncommutative Poisson algebra, combined with the Wheeler–DeWitt equation and Hořava–Lifshitz quantum gravity, we explore the impact of a scalar field of the inflaton-type in the evolution of the Universe's wave function. Taking as a starting point the Hořava–Lifshitz action, which depends on the scalar curvature of the branched Universe and its derivatives, the corresponding wave equations are derived and solved. The noncommutative quantum gravity approach adopted preserves the diffeomorphism property of General Relativity, maintaining compatibility with the Arnowitt–Deser–Misner Formalism. In this work we delve deeper into a mini-superspace of noncommutative variables, incorporating scalar inflaton fields and exploring inflationary models, particularly chaotic and nonchaotic scenarios. We obtained solutions to the wave equations without resorting to numerical approximations. The results indicate that the noncommutative algebraic space captures low and high spacetime scales, driving the exponential acceleration of the Universe.

带有自耦合充气标量场的非交换支割量子引力:宇宙的波函数
本文重点探讨了分支切割量子引力的非交换表述的意义。基于服从非交换泊松代数的迷你超空间结构,结合惠勒-德维特方程和霍热瓦-利夫希兹量子引力,我们探讨了膨胀子类型的标量场在宇宙波函数演化中的影响。以取决于支化宇宙的标量曲率及其导数的 Hořava-Lifshitz 作用为起点,推导并求解了相应的波方程。所采用的非交换量子引力方法保留了广义相对论的衍射性质,与阿诺维特-戴塞尔-米斯纳形式主义保持兼容。在这项工作中,我们深入研究了非交换变量的迷你超空间,纳入了标量胀气场,探索了胀气模型,特别是混沌和非混沌情景。我们在不求助于数值近似的情况下获得了波方程的解。结果表明,非交换代数空间捕捉到了低时空尺度和高时空尺度,推动了宇宙的指数加速。
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
Astronomische Nachrichten
Astronomische Nachrichten 地学天文-天文与天体物理
CiteScore
1.80
自引率
11.10%
发文量
57
审稿时长
4-8 weeks
期刊介绍: Astronomische Nachrichten, founded in 1821 by H. C. Schumacher, is the oldest astronomical journal worldwide still being published. Famous astronomical discoveries and important papers on astronomy and astrophysics published in more than 300 volumes of the journal give an outstanding representation of the progress of astronomical research over the last 180 years. Today, Astronomical Notes/ Astronomische Nachrichten publishes articles in the field of observational and theoretical astrophysics and related topics in solar-system and solar physics. Additional, papers on astronomical instrumentation ground-based and space-based as well as papers about numerical astrophysical techniques and supercomputer modelling are covered. Papers can be completed by short video sequences in the electronic version. Astronomical Notes/ Astronomische Nachrichten also publishes special issues of meeting proceedings.
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