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Please use this identifier to cite or link to this item: http://hdl.handle.net/11129/2785

Title: A new deformed Schioberg-type potential and ro-vibrational energies for some diatomic molecules
Authors: Mustafa, Omar
Eastern Mediterranean University, Faculty of Arts and Sciences, Department of Physics
TR217733
Keywords: STATE, MECHANICS, diatomic molecular potentials
SPIKES, PHYSICS, MULTIDISCIPLINARY
MODELS, HUA ROTATING OSCILLATOR, EQUIVALENCE
IMAGINARY CUBIC OSCILLATOR, ro-vibrational energies, deformed Schioberg-type potential
deformed Schiöberg-type potential, Mathematical Physics
Issue Date: 2015
Publisher: IOP Publishing
Citation: O. Mustafa: Phys. Scr. 90 (2015) 065002. arXiv:1409.6986, "A new deformed Schioberg-type potential and ro-vibrational energies for some diatomic molecules " SCI-journal.
Abstract: We suggest a new deformed Schioberg-type potential for diatomic molecules. We show that it is equivalent to Tietz-Hua oscillator potential. We discuss how to relate our deformed Schi\"oberg potential to Morse, to Deng-Fan , to the improved Manning-Rosen, and to the deformed modified Rosen-Morse potential models. We transform our potential into a proper form and use the supersymmetric quantization to find a closed form analytical solution for the ro-vibrational energy levels that are highly accurate over a wide range of vibrational and rotational quantum numbers. We discuss our results using 4-diatomic molecules NO, O2, O2+, and N2. Our results turn out to compare excellently with those from a generalized pseudospectral numerical method.
Description: Due to copyright restrictions, the access to the publisher version (published version) of this article is only available via subscription. You may click URI and have access to the Publisher Version of this article through the publisher web site or online databases, if your Library or institution has subscription to the related journal or publication
URI: http://dx.doi.org/10.1088/0031-8949/90/6/065002
http://hdl.handle.net/11129/2785
ISSN: 1402-4896(online)
0031-8949(print)
Appears in Collections:PHY – Journal Articles: Publisher & Author Versions (Post-Print Author Versions) – Physics

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