波诺-梅尔文-兰姆达解中的相对论自旋-0 达芬-凯默-佩蒂奥方程

IF 1.4 4区 物理与天体物理 Q3 PHYSICS, NUCLEAR International Journal of Modern Physics a Pub Date : 2024-04-18 DOI:10.1142/s0217751x24500325
Faizuddin Ahmed, Abdelmalek Bouzenada
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引用次数: 0

摘要

在本文中,我们在磁性时空的框架内,对自旋-0 标量粒子的相对论量子动力学进行了全面探索,正如达芬-凯默-佩蒂奥(DKP)方程所描述的那样。我们的研究重点是波诺-梅尔文-兰姆达(BML)方案,这是一个以磁场随轴向距离变化为特征的四维磁宇宙。为了启动这项研究,我们使用合适的波函数解析推导出径向方程,随后使用特殊函数求解。此外,我们还将分析扩展到同一 BML 时空背景下的达芬-凯末尔-佩蒂奥振荡器场。我们推导出相应的径向方程,并用特殊函数求解。重要的是,我们的结果表明,几何拓扑和宇宙学常数(两者都与磁场强度有关)会影响自旋-0 DKP 场和 DKP 振荡器场的特征值求解,从而导致整体结果发生重大变化。
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Relativistic spin-0 Duffin–Kemmer–Petiau equation in Bonnor–Melvin–Lambda solution

In this paper, we conduct a comprehensive exploration of the relativistic quantum dynamics of spin-0 scalar particles, as described by the Duffin–Kemmer–Petiau (DKP) equation, within the framework of a magnetic space-time. Our focus is on the Bonnor–Melvin–Lambda (BML) solution, a four-dimensional magnetic universe characterized by a magnetic field that varies with axial distance. To initiate this investigation, we derive the radial equation using a suitable wave function ansatz and subsequently employ special functions to solve it. Furthermore, we extend our analysis to include Duffin–Kemmer–Petiau oscillator fields within the same BML space-time background. We derive the corresponding radial equation and solve it using special functions. Significantly, our results show that the geometry’s topology and the cosmological constant (both are related to the magnetic field strength) influence the eigenvalue solution of spin-0 DKP fields and DKP-oscillator fields, leading to substantial modifications in the overall outcomes.

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来源期刊
International Journal of Modern Physics a
International Journal of Modern Physics a 物理-物理:核物理
CiteScore
3.00
自引率
12.50%
发文量
283
审稿时长
3 months
期刊介绍: Started in 1986, IJMPA has gained international repute as a high-quality scientific journal. It consists of important review articles and original papers covering the latest research developments in Particles and Fields, and selected topics intersecting with Gravitation and Cosmology. The journal also features articles of long-standing value and importance which can be vital to research into new unexplored areas.
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