Bibliographic Information: Popov, A. D. (2024). Antiparticles in non-relativistic quantum mechanics. arXiv preprint arXiv:2404.01756v3.
Research Objective: This paper aims to demonstrate how the concept of antiparticles, traditionally considered a relativistic phenomenon, can be naturally integrated into the framework of non-relativistic quantum mechanics.
Methodology: The author utilizes the principles of geometric quantization, focusing on the construction of complex line bundles over the phase space of a quantum system. By analyzing the winding numbers of curves within these bundles, the paper establishes a connection between particles, antiparticles, and their respective quantum charges. The one-dimensional harmonic oscillator serves as a concrete example to illustrate these concepts.
Key Findings: The paper reveals that particles and antiparticles in non-relativistic quantum mechanics can be distinguished by the winding numbers associated with their trajectories in phase space. Particles exhibit positive winding numbers, while antiparticles possess negative ones. This distinction arises from the opposite orientations of their motion in time and the corresponding complex structures on the phase space. Furthermore, the paper demonstrates that the energy levels of a quantum harmonic oscillator can be interpreted as the energy of a rotating Riemann surface embedded within the complex line bundle, with the vacuum energy associated with the rotation of the basis vectors in the bundle's fibers.
Main Conclusions: The study concludes that antiparticles are not exclusive to relativistic quantum field theory and can be naturally incorporated into non-relativistic quantum mechanics through the lens of geometric quantization. This approach provides a deeper geometrical understanding of the relationship between particles, antiparticles, and their quantum properties.
Significance: This research offers a novel perspective on fundamental concepts in quantum mechanics, potentially leading to new insights and applications in areas such as condensed matter physics and quantum information processing.
Limitations and Future Research: The paper primarily focuses on the one-dimensional harmonic oscillator as a model system. Further research could explore the generalization of these concepts to more complex quantum systems and their potential implications for other areas of physics.
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by Alexander D.... ที่ arxiv.org 11-22-2024
https://arxiv.org/pdf/2404.01756.pdfสอบถามเพิ่มเติม