Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection

Permanent URI for this collectionhttps://hdl.handle.net/11147/7148

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Institution Author: search.filters.institutionAuthor.Zoe, HeeseungWoS Q: search.filters.wosQuartile.Q3

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  • Article
    Analytical Techniques for Non-Relativistic Particles in the Presence of Topological Defects and External Potentials: Applications to Diatomic Molecules
    (Taylor & Francis Ltd, 2025) Joseph, Gabriel Wirdzelii; Targema, Terkaa Victor; Oyewumi, Kayode John; Omugbe, Ekwevugbe; Ajulo, Kayode Richard; Gabriel, Ochoche; Zoe, Heeseung
    In this paper, we examine the effects of point-like and cosmic string topological defects on non-relativistic particles confined within external potentials using analytical methods. The external potentials under consideration include the Hellmann-Kratzer potential, the standard Kratzer potential, the energy-dependent Kratzer potential, and the modified Kratzer potential. The modified Kratzer potential is employed to illustrate the impact of topological defects on diatomic molecules, demonstrating that these defects impose significant constraints on the molecules. In all defect types, the depth of the effective potential increases with increasing curvature. In these regions, molecules become trapped and experience a substantial reduction in energy in the case of point-like defects. Conversely, when particles propagate in a cosmic string background, their energy increases. When the constraints imposed by the topological defects on these molecules are removed, the results obtained in this study align well with existing literature. Thus, we establish beyond reasonable doubt the effects of topological defects on non-relativistic particles and, consequently, on diatomic molecules, which arise from the geometry of these defects. Additionally, we have employed analytical methods to obtain the solutions without introducing any modification to the centrifugal term. The approach is straightforward, highly efficient, and effective.
  • Article
    Citation - WoS: 45
    Citation - Scopus: 48
    Semiclassical Black Holes With Large N Rescaling and Information Loss Problem
    (World Scientific Publishing Co. Pte Ltd, 2011) Yeom, Dong-Han; Zoe, Heeseung
    We consider semiclassical black holes and related rescalings with N massless fields. For a given semiclassical solution of an N = 1 universe, we can find other solution of a large N universe by the rescaling. After the rescaling, any curvature quantity takes a sufficiently small value without changing its causal structure. Via the rescaling, we argue that black hole complementarity for semiclassical black holes cannot provide a fundamental resolution of the information loss problem, and the violation of black hole complementarity requires sufficiently reasonable amounts of N. Such N might be realized from some string inspired models. Finally, we claim that any fundamental resolution of the information loss problem should resolve the problem of the singularity.