Schwinger's SUSY Oscillators: An Analysis
- URL: http://arxiv.org/abs/2403.12101v2
- Date: Mon, 20 Jan 2025 18:25:58 GMT
- Title: Schwinger's SUSY Oscillators: An Analysis
- Authors: Dheeraj Shukla, Sudhaker Upadhyay,
- Abstract summary: We provide a comprehensive and fundamental understanding of the system.
Our study extends beyond the conventional framework by investigating the generalized angular momentum algebra.
Our analysis touches upon potential applications and consequences of this formalism, offering insights that could be relevant to various areas of theoretical physics.
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- Abstract: In this article, we explore the inconsistencies in the physics of fermionic oscillators and propose potential solutions to address them. By rigorously deriving the Hamiltonian and Lagrangian from first principles, we aim to provide a comprehensive and fundamental understanding of the system. Furthermore, we calculate the partition function for a system of fermionic oscillators by drawing a direct analogy to Planck's treatment of energy distribution in bosonic oscillators, offering a parallel approach to this well-established method. Our study extends beyond the conventional framework by investigating the generalized angular momentum algebra within the context of Schwinger's oscillator model. This includes a detailed examination of the algebraic structures for combinations of bosonic-bosonic, bosonic-fermionic, and fermionic-fermionic oscillators. Through this, we delve into these systems' underlying symmetries and algebraic richness, shedding light on the intricate relationships between these different types of oscillators. In addition to these foundational aspects, we explore the broader implications of this generalized Schwinger approach. Our analysis touches upon potential applications and consequences of this formalism, offering insights that could be relevant to various areas of theoretical physics. This work paves the way for a deeper understanding of quantum oscillators and their role in modern physics by bridging the gap between bosonic and fermionic oscillators.
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