A new deformed Schioberg-type potential and ro-vibrational energies for some diatomic molecules
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IOP Publishing
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info:eu-repo/semantics/closedAccess
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.
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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
Journal or Series
Physica Scripta
WoS Q Value
Scopus Q Value
Volume
90
Issue
6
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.
