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Potential Energy Surface and Bound States of Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals Complex Based on Ab Initio Calculations

[Image: see text] Theoretical studies of the potential energy surface and vibrational bound states calculations were performed for the ground state of the Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals (vdW) complex. The intermolecular interactions were investigated by using an accurate monoconfigurational...

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Autores principales: Mabrouk, Nesrine, Dhiflaoui, Jamila, Saidi, Samah, Bejaoui, Mohamed, Alharzali, Nissrin, Berriche, Hamid
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2023
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10641847/
https://www.ncbi.nlm.nih.gov/pubmed/37890154
http://dx.doi.org/10.1021/acs.jpca.3c03811
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author Mabrouk, Nesrine
Dhiflaoui, Jamila
Saidi, Samah
Bejaoui, Mohamed
Alharzali, Nissrin
Berriche, Hamid
author_facet Mabrouk, Nesrine
Dhiflaoui, Jamila
Saidi, Samah
Bejaoui, Mohamed
Alharzali, Nissrin
Berriche, Hamid
author_sort Mabrouk, Nesrine
collection PubMed
description [Image: see text] Theoretical studies of the potential energy surface and vibrational bound states calculations were performed for the ground state of the Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals (vdW) complex. The intermolecular interactions were investigated by using an accurate monoconfigurational RCCSD(T) method and large basis sets (aug-cc-pVnZ, n = T, Q, 5), extrapolated to the complete basis set (CBS) limit. In turn, the obtained raw data from RCCSD(T)/CBS(Q5) calculations were numerically interpolated using the Morse + vdW model and the Reproducing Kernel Hilbert Space (RKHS) polynomial method to generate analytic expressions for the 2D-PES. The RKHS interpolated PES was then used to assess the bound states of the Ne–Li(2)(+)(X(2)Σ(g)(+)) system through nuclear quantum calculations. By studying the aspect of the potential energy surface, the analysis sheds light on the behavior of the Ne–Li(2)(+)(X(2)Σ(g)(+)) complex and its interactions between repulsive and attractive forces with other particles. By examining the vibrational states and wave functions of the system, the researchers were able to gain a better understanding of the behavior of the Ne–Li(2)(+)(X(2)Σ(g)(+)) complex. The calculated radial and angular distributions for all even and odd symmetries are discussed in detail. We observe that the radial distributions exhibit a more complicated nodal structure, representing stretching vibrational behavior in the neon atom along its radial coordinate. For the highest bound states, the situation is very different, and the energies surpass the angular barrier.
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spelling pubmed-106418472023-11-15 Potential Energy Surface and Bound States of Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals Complex Based on Ab Initio Calculations Mabrouk, Nesrine Dhiflaoui, Jamila Saidi, Samah Bejaoui, Mohamed Alharzali, Nissrin Berriche, Hamid J Phys Chem A [Image: see text] Theoretical studies of the potential energy surface and vibrational bound states calculations were performed for the ground state of the Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals (vdW) complex. The intermolecular interactions were investigated by using an accurate monoconfigurational RCCSD(T) method and large basis sets (aug-cc-pVnZ, n = T, Q, 5), extrapolated to the complete basis set (CBS) limit. In turn, the obtained raw data from RCCSD(T)/CBS(Q5) calculations were numerically interpolated using the Morse + vdW model and the Reproducing Kernel Hilbert Space (RKHS) polynomial method to generate analytic expressions for the 2D-PES. The RKHS interpolated PES was then used to assess the bound states of the Ne–Li(2)(+)(X(2)Σ(g)(+)) system through nuclear quantum calculations. By studying the aspect of the potential energy surface, the analysis sheds light on the behavior of the Ne–Li(2)(+)(X(2)Σ(g)(+)) complex and its interactions between repulsive and attractive forces with other particles. By examining the vibrational states and wave functions of the system, the researchers were able to gain a better understanding of the behavior of the Ne–Li(2)(+)(X(2)Σ(g)(+)) complex. The calculated radial and angular distributions for all even and odd symmetries are discussed in detail. We observe that the radial distributions exhibit a more complicated nodal structure, representing stretching vibrational behavior in the neon atom along its radial coordinate. For the highest bound states, the situation is very different, and the energies surpass the angular barrier. American Chemical Society 2023-10-27 /pmc/articles/PMC10641847/ /pubmed/37890154 http://dx.doi.org/10.1021/acs.jpca.3c03811 Text en © 2023 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by-nc-nd/4.0/Permits non-commercial access and re-use, provided that author attribution and integrity are maintained; but does not permit creation of adaptations or other derivative works (https://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Mabrouk, Nesrine
Dhiflaoui, Jamila
Saidi, Samah
Bejaoui, Mohamed
Alharzali, Nissrin
Berriche, Hamid
Potential Energy Surface and Bound States of Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals Complex Based on Ab Initio Calculations
title Potential Energy Surface and Bound States of Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals Complex Based on Ab Initio Calculations
title_full Potential Energy Surface and Bound States of Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals Complex Based on Ab Initio Calculations
title_fullStr Potential Energy Surface and Bound States of Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals Complex Based on Ab Initio Calculations
title_full_unstemmed Potential Energy Surface and Bound States of Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals Complex Based on Ab Initio Calculations
title_short Potential Energy Surface and Bound States of Ne–Li(2)(+)(X(2)Σ(g)(+)) van der Waals Complex Based on Ab Initio Calculations
title_sort potential energy surface and bound states of ne–li(2)(+)(x(2)σ(g)(+)) van der waals complex based on ab initio calculations
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10641847/
https://www.ncbi.nlm.nih.gov/pubmed/37890154
http://dx.doi.org/10.1021/acs.jpca.3c03811
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