Saved in:
Bibliographic Details
Main Authors: Long, Alexander, Griesshammer, Harald W.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.00989
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913770598563840
author Long, Alexander
Griesshammer, Harald W.
author_facet Long, Alexander
Griesshammer, Harald W.
contents The dynamics of scattering on light nuclei is numerically expensive using standard methods. Fortunately, recent developments allow one to factor the relevant quantities for a given probe into a convolution of an $n$-body Transition Density Amplitude (TDA) and the interaction kernel for a given probe. These TDAs depend only on the target, and not the probe; they are calculated once for each set of kinematics and can be used for different interactions. The kernels depend only on the probe, and not on the target; they can be reused for different targets and different kinematics. The calculation of TDAs becomes numerically difficult for more than four nucleons, but we discuss a new solution through the use of a Similarity Renormalization Group transformation, and a subsequent back-transformation. This technique allows for extending the TDA method to heavier nuclei such as 6Li. We present preliminary results for Compton scattering on 6Li and compare with available data, anticipating an upcoming, more thorough study. We also discuss ongoing extensions to pion-photoproduction and other reactions on light nuclei.
format Preprint
id arxiv_https___arxiv_org_abs_2504_00989
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Scattering Observables from Few-Body Densities and Compton Scattering on 6Li
Long, Alexander
Griesshammer, Harald W.
Nuclear Theory
Nuclear Experiment
The dynamics of scattering on light nuclei is numerically expensive using standard methods. Fortunately, recent developments allow one to factor the relevant quantities for a given probe into a convolution of an $n$-body Transition Density Amplitude (TDA) and the interaction kernel for a given probe. These TDAs depend only on the target, and not the probe; they are calculated once for each set of kinematics and can be used for different interactions. The kernels depend only on the probe, and not on the target; they can be reused for different targets and different kinematics. The calculation of TDAs becomes numerically difficult for more than four nucleons, but we discuss a new solution through the use of a Similarity Renormalization Group transformation, and a subsequent back-transformation. This technique allows for extending the TDA method to heavier nuclei such as 6Li. We present preliminary results for Compton scattering on 6Li and compare with available data, anticipating an upcoming, more thorough study. We also discuss ongoing extensions to pion-photoproduction and other reactions on light nuclei.
title Scattering Observables from Few-Body Densities and Compton Scattering on 6Li
topic Nuclear Theory
Nuclear Experiment
url https://arxiv.org/abs/2504.00989