The ground state of the lithium atom in dense plasmas using variational Monte Carlo method

Doma, S. B.; El-Gendy, H. S.; Abdel-Khalek, M. A.; Hejazi, M. M.

doi:10.1007/s12648-020-01920-2

Cited by 4 publications

(3 citation statements)

References 19 publications

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“…For the ground state of the lithium atom, 2 1 2 s s and its isoelectronic ions, in the presence of weak magnetic field, we used the following trial wave function [14]:…”

Section: The Trial Wave Functionsmentioning

confidence: 99%

“…Many studies have been recently presented by Doma et al using the Variational Monte Carlo (VMC) method for the helium, lithium, and beryllium atoms [14] [15] [16] [17] [18]. The success of the VMC method extended also to the light molecules, where similar investigations have been carried out for the hydrogen molecule and its molecular ion by Doma et al [19] [20] [21].…”

Section: Introductionmentioning

confidence: 99%

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Ground State, Isoelectronic Ions and Low-Lying Excited States of Lithium Atom in Strong Magnetic Field

Kharroube¹

2021

OJM

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“…For the ground state of the lithium atom, 2 1 2 s s and its isoelectronic ions, in the presence of weak magnetic field, we used the following trial wave function [14]:…”

Section: The Trial Wave Functionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Ground State, Isoelectronic Ions and Low-Lying Excited States of Lithium Atom in Strong Magnetic Field

Kharroube¹

2021

OJM

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“…The influence of plasma on quantum objects surrounded by the plasma environment can be regarded as a particular type of spatial condiment. In recent years, there has been a significant interest in studying the effect of the plasma environment on atomic processes, particularly with the advancements in experimental investigations of highly charged ions [27][28][29][30][31][32][33][34][35][36]. Analyzing the interaction between atoms and plasmas is valuable for diagnostic purposes in laboratory and astrophysical plasma.…”

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confidence: 99%

Compressed lithium atom under Debye screening

Doma,

Salem,

El‐Gammal

2023

Int J of Quantum Chemistry

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In the present paper, we introduced two approximation methods to investigate the spherically compressed lithium atom under the influence of Debye plasma. Specifically, the diffusion and the variational Monte Carlo methods are used for the first time to study this case. We incorporated an exponential screening into the nuclear Coulomb potential to account for the plasma influence. We focused our investigation on analyzing the combined effect of compression and plasma environment on the behavior of the lithium atom in its ground state. The resulting outcomes exhibited consistent pattern across various confinement radii and Debye plasma lengths . Many of the results are novel contributions, as they have yet to be explored. Moreover, the findings from this study demonstrated reasonable agreement with the limited existing theoretical results.

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Ab initio diffusion quantum Monte Carlo study of the structural and electronic properties of small Lithium-Chloride LinCl (0,1+) (n = 1–7) clusters

Gao

Cheng

Zhao

2022

Computational and Theoretical Chemistry

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The ground state of the lithium atom in dense plasmas using variational Monte Carlo method

Cited by 4 publications

References 19 publications

Ground State, Isoelectronic Ions and Low-Lying Excited States of Lithium Atom in Strong Magnetic Field

Ground State, Isoelectronic Ions and Low-Lying Excited States of Lithium Atom in Strong Magnetic Field

Compressed lithium atom under Debye screening

Ab initio diffusion quantum Monte Carlo study of the structural and electronic properties of small Lithium-Chloride LinCl (0,1+) (n = 1–7) clusters

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