Spectra of electron pair under harmonic and Debye potential

Abstract: Two electron systems confined by harmonic potential is known as harmonium. Such a system has been studied for many reasons in the literature. In this work we study harmonium under Debye potential. We use higher order finite difference method for the solution of Schrodinger equation. Complete energy spectrum of harmonium and harmonium under Debye potential is studied. Debye screening length shows considerable effect on the energy levels and the radial matrix elements. The results are analysed in the light of ex… Show more

“…The results of this article were verified with the previous results. In Table , the results of this article are compared to the values calculated by Munjal and Prasad . The present results show reasonable agreement with the previous results .…”

“…The results of present work were compared to the previous results to verify the accuracy of the shifted 1/N expansion method in calculating energies of harmonium. The results are in reasonable agreement, quantitatively and qualitatively, with those obtained using other different methods . At a high screening effect ( λ D → 0), harmonium atoms may be regarded as systems of independent harmonic oscillators and the single‐electron states are important.…”

“…It is simple and gives accurate eigenvalues without dealing with wave function of particles. The properties of the energy spectrum of harmonium under Debye potential were analysed using the eighth order finite difference method for the solution of Schrodinger equation . Debye screening length shows a considerable effect on the energy levels and the radial matrix elements …”

“…The properties of the energy spectrum of harmonium under Debye potential were analysed using the eighth order finite difference method for the solution of Schrodinger equation. [17] Debye screening length shows a considerable effect on the energy levels and the radial matrix elements. [17] In the shifted 1/N expansion, the calculations are carried out for states with arbitrary quantum numbers (the principal and orbital quantum numbers n and , respectively) using forth-order perturbation theory in the shifted expansion parameter 1∕k, where k = N + 2 − a.…”

“…[17] Debye screening length shows a considerable effect on the energy levels and the radial matrix elements. [17] In the shifted 1/N expansion, the calculations are carried out for states with arbitrary quantum numbers (the principal and orbital quantum numbers n and , respectively) using forth-order perturbation theory in the shifted expansion parameter 1∕k, where k = N + 2 − a. Here, N is the number of spatial dimensions and (a) is a suitable shift parameter that will be discussed later.…”

Energy spectra of three‐dimensional harmonium under Debye potential obtained using the shifted 1/N expansion approach

“…The results of this article were verified with the previous results. In Table , the results of this article are compared to the values calculated by Munjal and Prasad . The present results show reasonable agreement with the previous results .…”

“…The results of present work were compared to the previous results to verify the accuracy of the shifted 1/N expansion method in calculating energies of harmonium. The results are in reasonable agreement, quantitatively and qualitatively, with those obtained using other different methods . At a high screening effect ( λ D → 0), harmonium atoms may be regarded as systems of independent harmonic oscillators and the single‐electron states are important.…”

“…It is simple and gives accurate eigenvalues without dealing with wave function of particles. The properties of the energy spectrum of harmonium under Debye potential were analysed using the eighth order finite difference method for the solution of Schrodinger equation . Debye screening length shows a considerable effect on the energy levels and the radial matrix elements …”

“…The properties of the energy spectrum of harmonium under Debye potential were analysed using the eighth order finite difference method for the solution of Schrodinger equation. [17] Debye screening length shows a considerable effect on the energy levels and the radial matrix elements. [17] In the shifted 1/N expansion, the calculations are carried out for states with arbitrary quantum numbers (the principal and orbital quantum numbers n and , respectively) using forth-order perturbation theory in the shifted expansion parameter 1∕k, where k = N + 2 − a.…”

“…[17] Debye screening length shows a considerable effect on the energy levels and the radial matrix elements. [17] In the shifted 1/N expansion, the calculations are carried out for states with arbitrary quantum numbers (the principal and orbital quantum numbers n and , respectively) using forth-order perturbation theory in the shifted expansion parameter 1∕k, where k = N + 2 − a. Here, N is the number of spatial dimensions and (a) is a suitable shift parameter that will be discussed later.…”

Energy spectra of three‐dimensional harmonium under Debye potential obtained using the shifted 1/N expansion approach

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