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Auteurs principaux: Khachi, Anil, Awasthi, Shikha, Kumar, Lalit, Sastri, O. S. K. S
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2403.19173
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author Khachi, Anil
Awasthi, Shikha
Kumar, Lalit
Sastri, O. S. K. S
author_facet Khachi, Anil
Awasthi, Shikha
Kumar, Lalit
Sastri, O. S. K. S
contents An algorithm$^{\ref{Fig1}}$ has been developed with the purpose of obtaining inverse potentials, where the Riccati-type non-linear differential equation, also called phase equation, has been kept in tandem with the Variational Monte Carlo method. The optimization of Gaussian function parameters is achieved such that the experimental phase shifts are reproduced. The obtained SPS for various $\ ell$ channels has been compared with experimental ones with mean absolute percentage error (MAPE) as a measure. The model parameters have been optimised by suitable optimisation technique by looking for minimum value of MAPE. The results for $\ell$=0$^+$, 2$^+$ and 4$^+$ partial waves have been obtained, to match with experimental SPS, with MAPE values of $2.9$, $4.6$ and $6.2$ respectively for data up to $23$ MeV, while for higher states 6$^+$, 8$^+$ and 10$^+$ has MAPE of $3.2, 4.5$ and $5.9$ respectively for data from $53-120$ MeV. On extrapolation for data in range E$_{\ell ab.}$ = $23-120$ MeV, using the optimised parameters, the SPS are found to be in close agreement with experimental ones for the first three channels.
format Preprint
id arxiv_https___arxiv_org_abs_2403_19173
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Algorithm to Obtain Inverse Potentials for $α-α$ Scattering using Variable Phase Approach
Khachi, Anil
Awasthi, Shikha
Kumar, Lalit
Sastri, O. S. K. S
Nuclear Theory
An algorithm$^{\ref{Fig1}}$ has been developed with the purpose of obtaining inverse potentials, where the Riccati-type non-linear differential equation, also called phase equation, has been kept in tandem with the Variational Monte Carlo method. The optimization of Gaussian function parameters is achieved such that the experimental phase shifts are reproduced. The obtained SPS for various $\ ell$ channels has been compared with experimental ones with mean absolute percentage error (MAPE) as a measure. The model parameters have been optimised by suitable optimisation technique by looking for minimum value of MAPE. The results for $\ell$=0$^+$, 2$^+$ and 4$^+$ partial waves have been obtained, to match with experimental SPS, with MAPE values of $2.9$, $4.6$ and $6.2$ respectively for data up to $23$ MeV, while for higher states 6$^+$, 8$^+$ and 10$^+$ has MAPE of $3.2, 4.5$ and $5.9$ respectively for data from $53-120$ MeV. On extrapolation for data in range E$_{\ell ab.}$ = $23-120$ MeV, using the optimised parameters, the SPS are found to be in close agreement with experimental ones for the first three channels.
title Algorithm to Obtain Inverse Potentials for $α-α$ Scattering using Variable Phase Approach
topic Nuclear Theory
url https://arxiv.org/abs/2403.19173