KG- oscillators in a spinning cosmic string spacetime and an external magnetic field

Autor: Mustafa, Omar
Rok vydání: 2024
Předmět:
Druh dokumentu: Working Paper
Popis: We study the Klein-Gordon (KG) oscillators in a spinning cosmic string spacetime and an external magnetic field. The corresponding KG-equation is shown to admit a solution in the form of the confluent hypergeometric functions/polynomials. Consequently, the corresponding energies are shown to be given in a quadratic equation of a delicate nature that has to be solved in an orderly manner (for it involves the energies for KG-particles/antiparticles, $E=E_{\pm}=\pm\left\vert E\right\vert $ along with the magnetic quantum number $m=m_{\pm }=\pm |m|$). Following a case-by-case strategy allowed us to clearly observe the effects of the spinning cosmic string on the spectroscopic structure of the KG-oscillators. We have observed that, under some parametric settings, whilst the Landau-like energies of the KG-particles ($E=E_{+}$), with $m=m_{+}$, have no explicit dependence on the spinning string parameter or wedge parameter $\alpha$, the KG-antiparticles ($E=E_{-}$), with $m=m_{-}$, have such explicit dependence. Interestingly, the co-existence of a spinning cosmic string and external magnetic field eliminates the effect of the wedge parameter ( a byproduct of the string) for KG-particles ($E=E_{+}$), with $m=m_{+}$, but not for the KG-antiparticles ($E=E_{-}$), with $m=m_{-}$. Such co-existence is observed to break the symmetry of the energies of the KG-particles and antiparticles about $E=0$ for KG-oscillators. However, for KG-particles ($E=E_{+}$), with $m=m_{-}$, and KG-antiparticles ($E=E_{-}$), with $m=m_{+}$, are observed to be unfortunate for being indeterminable. Moreover, for the spinning parameter $\beta >>1$, clustering of the energy levels is observed eminent to indicate that there is no distinction between energy levels at such values of $\beta $.
Comment: 12 pages, 3 figures
Databáze: arXiv
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