库仑场中的Stuckelberg粒子:一个非相对论近似

IF 0.3 Q4 PHYSICS, MULTIDISCIPLINARY
E. Ovsiyuk, O. Semenyuk, A. Ivashkevich, M. Neagu
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引用次数: 2

摘要

本文从自旋态为S = 1和S = 0且固有宇称固定的玻色子的Stuckelberg张量方程组入手,将其转化为矩阵形式,然后利用四分体方法将该矩阵系统推广到一般协变情况。在存在外部库仑场的情况下,用球坐标详细描述了这个方程。分离变量后,导出了由11个径向方程组成的方程组。通过对角化空间反射算子,将该系统分为两个系统,分别具有P =(−1)j+1和P =(−1)j的状态的四个和七个方程。对于宇称为P =(−1)j+1的态的系统,得到已知的解和能谱。用超几何函数的形式求解了具有P =(−1)j的态的7个方程组,得到了总角动量j = 0的态的方程组。总角动量j = 1,2,3,…的七个状态方程系统结果非常复杂,唯一的非相对论近似已经被研究过了。用合流超几何函数对导出的非相对论方程进行了求解,得到了相应的能谱。此外,导出了任意电磁场存在下Stuckelberg粒子的非相对论性方程的一般形式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stuckelberg Particle in a Coulomb Field: A Non-Relativistic Approximation
We start with the Stuckelberg tensor system of equations for a boson with spin states S = 1 and S = 0 and fixed intrinsic parity, which is transformed to the matrix form, then generalize this matrix system to the generally covariant case with the use of the tetrad method. This equation is detailed in spherical coordinates in the presence of an external Coulomb field. After separation of the variables we derive the system of 11 radial equations. By diagonalizing the space reflection operator, this system is splitted into two system of four and seven equations for the states with the parities P = (−1) j+1 and P = (−1) j respectively. The system for the states with the parities P = (−1) j+1 leads to the known solution and energy spectrum. The system of seven equations for the states with the parities P = (−1) j is solved for the states with the total angular momentum j = 0 in terms of hypergeometric functions. The system of seven equations for the states with the total angular momenta j = 1, 2, 3, ... turns out to be very complicated, the only nonrelativistic approximation has been studied. The derived nonrelativistic equations are solved in terms of confluent hypergeometric functions, and the corresponding energy spectra are found. In addition, the general form of the nonrelativistic equations for the the Stuckelberg particle is derived in the presence of an arbitrary electromagnetic field.
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来源期刊
Nonlinear Phenomena in Complex Systems
Nonlinear Phenomena in Complex Systems PHYSICS, MULTIDISCIPLINARY-
CiteScore
0.90
自引率
25.00%
发文量
32
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