Plasma-embedded positronium atom with energy-dependent potential
Date
2021Metadata
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In this study, for the first time, the positronium atom embedded in the plasma environment with energy-dependent potential interaction, under spherical confinement is investigated. The more general exponential cosine screened Coulomb (MGECSC) potential is used to describe the interaction potential of the positronium atom in the plasma environment. Although there are four different sets of MGECSC potential to model Debye and quantum plasma, the most general form for calculations is considered. Thus, the positronium atom containing energy-dependent potential interaction embedded in the quantum plasma environment comes into question. The energy dependence of the interaction potential is chosen linearly and rendered to a tunable case by using a dimensionless parameter. MGECSC potential is modified by taking into account the linear energy dependence. The nonrelativistic spectrum and wave functions of the energy-dependent MGECSC potential (energy-dependent plasma (EDP) potential) for the positronium atom are obtained using the Runge-Kutta-Fehlberg (RKF) method. The effect of the plasma shielding parameters, the spherical encompassing effect and the energy dependence on generation and control of the orbital charge-currents and the induced magnetic fields of the positronium atom are examined. Also, the transition energies, the oscillator strengths, and the dipole polarizability are studied for only energy dependence. For the energy independent case, the structural property review is also performed, and the results are compared. Alternatives to each other of the effective potential parameters on the charge-currents, the induced magnetic fields and the structural properties are also discussed. The charge-current and induced magnetic field analysis is also performed for energy dependent potential-plasma environment case, plasma environment-energy independent potential case, no plasma environment-energy dependent potential case and no plasma environment-energy independent potential case.