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Main Authors: Awasthi, Shikha, Kant, Ishwar, Khachi, Anil, Sastri, O. S. K. S.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.14807
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author Awasthi, Shikha
Kant, Ishwar
Khachi, Anil
Sastri, O. S. K. S.
author_facet Awasthi, Shikha
Kant, Ishwar
Khachi, Anil
Sastri, O. S. K. S.
contents The real and imaginary scattering phase shifts (SPS) and potentials for $\ell=0,2,4$ partial waves have been obtained by developing a novel algorithm$^{\ref{Fig1}}$ to derive inverse potentials using a phenomenological approach. The phase equation, which is a Riccati-type non-linear differential equation, is coupled with the Variational Monte Carlo method. Comparisons between the resulting SPS for various $\ell$ channels and experimental data are made using mean absolute percentage error (MAPE) as a cost function. Model parameters are fine-tuned through an appropriate optimization technique to minimize MAPE. The results for $\ell=0^+$, $2^+$, and $4^+$ partial waves are generated to align with experimental SPS with mean absolute error (MAE) calculated with respect to experimental data is 3.19, 8.74, 13.06 respectively corresponding to real part and 0.76, 0.76, 0.59 corresponding to imaginary parts of scattering phase shifts.
format Preprint
id arxiv_https___arxiv_org_abs_2412_14807
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Modeling of Real and Imaginary Phase Shifts for $α-α$ Scattering using Malfliet-Tjon Potential
Awasthi, Shikha
Kant, Ishwar
Khachi, Anil
Sastri, O. S. K. S.
Nuclear Theory
The real and imaginary scattering phase shifts (SPS) and potentials for $\ell=0,2,4$ partial waves have been obtained by developing a novel algorithm$^{\ref{Fig1}}$ to derive inverse potentials using a phenomenological approach. The phase equation, which is a Riccati-type non-linear differential equation, is coupled with the Variational Monte Carlo method. Comparisons between the resulting SPS for various $\ell$ channels and experimental data are made using mean absolute percentage error (MAPE) as a cost function. Model parameters are fine-tuned through an appropriate optimization technique to minimize MAPE. The results for $\ell=0^+$, $2^+$, and $4^+$ partial waves are generated to align with experimental SPS with mean absolute error (MAE) calculated with respect to experimental data is 3.19, 8.74, 13.06 respectively corresponding to real part and 0.76, 0.76, 0.59 corresponding to imaginary parts of scattering phase shifts.
title Modeling of Real and Imaginary Phase Shifts for $α-α$ Scattering using Malfliet-Tjon Potential
topic Nuclear Theory
url https://arxiv.org/abs/2412.14807