Unconventional reconciliation path for quantum mechanics and general relativity

IF 2.5 Q3 QUANTUM SCIENCE & TECHNOLOGY

IET Quantum Communication Pub Date : 2022-01-15 DOI:10.1049/qtc2.12034

Samuel Polopa Yuguru

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Abstract

Physics in general is successfully governed by quantum mechanics at the microscale and principles of relativity at the macroscale. Any attempts to unify them using conventional methods have somewhat remained elusive for nearly a century up to the present stage. Here, a classical gedanken experiment of electron-wave diffraction of a single slit is intuitively examined for its quantized states. A unidirectional monopole pair (MP) field as quanta of the electric field is pictorially conceptualised into 4D space-time. Its application towards quantum mechanics and general relativity appears consistent with existing knowledge in physics. This considers a multiverse of MP models at a hierarchy of scales. Einsteinian gravity is then defined to be of circular acceleration with angular momentum in time reversal mode to an overarching MP field precessing into forward time. Such descriptions provide a credible intuitive tool for physics applications in general. Its proposed design can be assessed using conventional methods, perhaps in incremental steps and this warrants further investigations.

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量子力学与广义相对论的非常规调和之路

一般来说，物理学成功地由微观尺度上的量子力学和宏观尺度上的相对性原理所支配。近一个世纪以来，任何用传统方法统一它们的尝试，在某种程度上都是难以捉摸的。本文直观地考察了单缝电子波衍射的经典格丹肯实验的量子化态。单向单极子对(MP)场作为电场的量子被图示地概念化为四维时空。它在量子力学和广义相对论上的应用似乎与现有的物理学知识是一致的。这考虑了在层次结构上的MP模型的多重宇宙。然后，将爱因斯坦引力定义为具有时间反转模式的圆形加速度，其角动量与一个整体的MP场进行正向时间处理。这样的描述为一般的物理应用提供了一个可信的直观工具。它提出的设计可以用传统的方法进行评估，也许是循序渐进的，这值得进一步的研究。

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

IET Quantum Communication

CiteScore

6.70

自引率

0.00%

发文量