Dirac Theory in Noncommutative Phase Spaces

Physics Pub Date : 2024-07-08 DOI:10.3390/physics6030058
Shi‐Dong Liang
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Abstract

Based on the position and momentum of noncommutative relations with a noncanonical map, we study the Dirac equation and analyze its parity and time reversal symmetries in a noncommutative phase space. Noncommutative parameters can be endowed with the Planck length and cosmological constant such that the noncommutative effect can be interpreted as an effective gauge potential or a (0,2)-type curvature associated with the Plank constant and cosmological constant. This provides a natural coupling between dynamics and spacetime geometry. We find that a free Dirac particle carries an intrinsic velocity and force induced by the noncommutative algebra. These properties provide a novel insight into the Zitterbewegung oscillation and the physical scenario of dark energy. Using perturbation theory, we derive the perturbed and nonrelativistic solutions of the Dirac equation. The asymmetric vacuum gaps of particles and antiparticles reveal the particle–antiparticle symmetry breaking in the noncommutative phase space, which provides a clue to understanding the physical mechanisms of particle–antiparticle asymmetry and quantum decoherence through quantum spacetime fluctuation.
非交换相空间中的狄拉克理论
基于具有非对称映射的非交换关系的位置和动量,我们研究了狄拉克方程,并分析了它在非交换相空间中的奇偶性和时间反转对称性。非交换参数可以被赋予普朗克长度和宇宙学常数,这样非交换效应就可以被解释为有效的规势或与普朗克常数和宇宙学常数相关的(0,2)型曲率。这提供了动力学与时空几何之间的自然耦合。我们发现,自由的狄拉克粒子携带着由非交换代数诱导的内在速度和力。这些特性为我们深入了解齐特贝格振荡和暗能量的物理情景提供了新的视角。利用摄动理论,我们推导出了狄拉克方程的摄动和非相对论解。粒子和反粒子的非对称真空间隙揭示了非交换相空间中粒子-反粒子对称性的破缺,为理解粒子-反粒子不对称和通过量子时空波动实现量子退相干的物理机制提供了线索。
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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