Confined Klein-Gordon oscillator from a (2+1)-dimensional G\"urses to a G\"urses or a pseudo-G\"urses space-time backgrounds: Invariance and isospectrality
Abstract
We study the Klein-Gordon (KG) oscillator with a Cornell-type scalar confinement in (2+1)-dimensional G\"urses space-time backgrounds and report their exact solutions. The effect of the vorticity parameter on the energy levels is found to yield some interesting features like; energy levels-crossings, partial clustering of positive and negative energy levels, and shifting the energy gap upwards or downwards. Such confined KG-oscillators are also studied in a general deformed G\"urses space-time background. Moreover, we consider the confined-deformed KG-oscillator from a (2+1)-dimensional G\"urses to G\"urses and pseudo-G\"urses space-time backgrounds. The resulting confined-deformed KG-oscillators are found to admit invariance and isospectrality with each other
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