Investigating Some Diatomic Molecules Bounded by the Two-Dimensional Isotropic Oscillator plus Inverse Quadratic Potential in an External Magnetic Field

IF 1.5 4区物理与天体物理 Q3 PHYSICS, PARTICLES & FIELDS Advances in High Energy Physics Pub Date : 2022-07-11 DOI:10.1155/2022/6565048

O. Oluwadare, E. O. Ilesanmi, T. O. Abiola, O. Olubosede, E. A. Odo, S. O. Ajibade, K. Oyewumi

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Abstract

We investigate the nonrelativistic magnetic effect on the energy spectra, expectation values of some quantum mechanical observables, and diamagnetic susceptibility for some diatomic molecules bounded by the isotropic oscillator plus inverse quadratic potential. The energy eigenvalues and normalized wave functions are obtained via the parametric Nikiforov-Uvarov method. The expectation values square of the position r 2 , square of the momentum p 2 , kinetic energy T , and potential energy V are obtained by applying the Hellmann-Feynman theorem, and an expression for the diamagnetic susceptibility X is also derived. Using the spectroscopic data, the low rotational and low vibrational energy spectra, expectation values, and diamagnetic susceptibility X for a set of diatomic molecules (I2, H2, CO, and HCl) for arbitrary values, Larmor frequencies are calculated. The computed energy spectra, expectation values, and diamagnetic susceptibility X were found to be more influenced by the external magnetic field strength and inverse quadratic potential strength g than the vibrational frequencies and the masses of the selected molecules.

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在外磁场中以二维各向同性振荡器加逆二次势为界的双原子分子的研究

我们研究了以各向同性振子加逆二次势为界的双原子分子的能谱、一些量子力学观测值的期望值和抗磁化率的非相对论磁效应。通过参数化Nikiforov-Uvarov方法得到能量特征值和归一化波函数。应用Hellmann-Feynman定理得到了位置r 2的期望值平方、动量p 2的平方、动能T和势能V，并推导了抗磁化率X的表达式。利用光谱数据，计算任意值下双原子分子(I2、H2、CO和HCl)的低旋转和低振动能谱、期望值和抗磁化率X，计算拉莫尔频率。计算出的能谱、期望值和抗磁化率X受外磁场强度和逆二次势强度g的影响大于所选分子的振动频率和质量。

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来源期刊

Advances in High Energy Physics PHYSICS, PARTICLES & FIELDS-

CiteScore

3.40

自引率

5.90%

发文量

审稿时长

6-12 weeks

期刊介绍： Advances in High Energy Physics publishes the results of theoretical and experimental research on the nature of, and interaction between, energy and matter. Considering both original research and focussed review articles, the journal welcomes submissions from small research groups and large consortia alike.