Statistical aspects of nuclear mass models
Abstract
We study the information content of nuclear masses from the perspective of global models of nuclear binding energies. To this end, we employ a number of statistical methods and diagnostic tools, including Bayesian calibration, Bayesian model averaging, chi-square correlation analysis, principal component analysis, and empirical coverage probability. Using a Bayesian framework, we investigate the structure of the 4-parameter Liquid Drop Model by considering discrepant mass domains for calibration. We then use the chi-square correlation framework to analyze the 14-parameter Skyrme energy density functional calibrated using homogeneous and heterogeneous datasets. We show that a quite dramatic parameter reduction can be achieved in both cases. The advantage of Bayesian model averaging for improving uncertainty quantification is demonstrated. The statistical approaches used are pedagogically described; in this context this work can serve as a guide for future applications.
Cite
@article{arxiv.2002.04151,
title = {Statistical aspects of nuclear mass models},
author = {Vojtech Kejzlar and Léo Neufcourt and Witold Nazarewicz and Paul-Gerhard Reinhard},
journal= {arXiv preprint arXiv:2002.04151},
year = {2020}
}
Comments
Accepted for publication in J. Phys. G Focus Issue on "Focus on further enhancing the interaction between nuclear experiment and theory through information and statistics (ISNET 2.0),"