半变换Ansatz:量子相空间表示中的夸克动力学

IF 1.3 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY International Journal of Theoretical Physics Pub Date : 2023-08-19 DOI:10.1007/s10773-023-05410-z
Gabriel Nowaskie
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引用次数: 1

摘要

自Torres-Vega和Frederick发表基础研究以来,量子相空间表示(QPSR)已被探索为解决众多物理系统和描述现象的方法。最近,Valentino a . Simpao开发了一种方法,即Heaviside操作Ansatz,来求解QPSR中时间无关的薛定谔方程(TDSE),但仍然没有通用的、直接的方法来求解QPSR中时间无关的薛定谔方程。目前在相空间中也没有夸克元的表述。本文用Cornell势描述了非相对论性重夸克的强相互作用,并提出了一种半变换Ansatz方法,将薛定谔方程转化为超几何形式,用Nikiforov-Uvarov方法求解相空间波函数及其能量特征值。该解可推广到任何由多项式项和倒数项组成的双粒子系统。这些结果与实验结果和其他理论模型进行了比较。我们还分析了这些波函数的行为,提出了径向动量与粲-反粲介子存在的上限之间的相关性。
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The Half-Transform Ansatz: Quarkonium Dynamics in Quantum Phase Space Representation

Since the groundwork published by Torres-Vega and Frederick, the Quantum Phase Space Representation (QPSR) has been explored as a method for solving a multitude of physical systems and describing phenomena. Most recently, Valentino A. Simpao has developed a method, the Heaviside Operational Ansatz, to solve the Time Dependent Schrodinger Equation (TDSE) in the QPSR, but there are still no general, direct methods to solve the Time Independent Schrodinger Equation in the QPSR. There is also no current formulation of quarkonium in phase space. In this paper, we describe the strong interactions of non-relativistic heavy quarks using the Cornell potential, and present a method, the Half-Transform Ansatz, to cast the Schrodinger Equation into a hyper-geometric form which can be solved for the phase space wave function and its energy eigenvalues using the Nikiforov-Uvarov method. This solution can be generalized for any two particle system with a scleronomic potential made up of polynomial and reciprocal terms. These results are compared to experimental results and other theoretical models. We also analyze the behavior of these wave functions, which suggest a correlation between radial momentum and the upper limit of existence in charm-anticharm mesons.

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来源期刊
CiteScore
2.50
自引率
21.40%
发文量
258
审稿时长
3.3 months
期刊介绍: International Journal of Theoretical Physics publishes original research and reviews in theoretical physics and neighboring fields. Dedicated to the unification of the latest physics research, this journal seeks to map the direction of future research by original work in traditional physics like general relativity, quantum theory with relativistic quantum field theory,as used in particle physics, and by fresh inquiry into quantum measurement theory, and other similarly fundamental areas, e.g. quantum geometry and quantum logic, etc.
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