English

Linear polarization-direction correlations in $\gamma$-ray scattering experiments

Nuclear Experiment 2021-06-18 v1

Abstract

Scattering measurements with incident linearly polarized γ\gamma rays provide information on spins, parities, and γ\gamma-ray multipolarity mixing coefficients, and, therefore, on the nuclear matrix elements involved in the transitions. We present the general formalism for analyzing the observed angular correlations. The expressions are used to compute three-dimensional radiation patterns, which are important tools for optimizing experimental setups. Frequently, γ\gamma-ray transitions can proceed via two multipolarities that mix coherently. In such cases, the relative phases of the nuclear matrix elements are important when comparing results from different measurements. We discuss different phase conventions that have been used in the literature and present their relationships. Finally, we propose a basic experimental geometry consisting of detectors located at four different spatial locations. For this geometry, we present the measured anisotropies of the emitted γ\gamma rays in graphical format as an aid in the data analysis.

Keywords

Cite

@article{arxiv.2104.00228,
  title  = {Linear polarization-direction correlations in $\gamma$-ray scattering experiments},
  author = {Christian Iliadis and Udo Friman-Gayer},
  journal= {arXiv preprint arXiv:2104.00228},
  year   = {2021}
}

Comments

39 pages, 51 figures

R2 v1 2026-06-24T00:45:33.979Z