Atomic Data to Decipher the Cosmic Production of Heavy Elements

Facts

Contact person:: Henrik Hartman
Financer:: The Swedish Research Council

The Carl Trygger Foundation
Responsible at MaU:: Henrik Hartman
Project members at MaU:: Henrik Hartman

Per Jönsson

Hampus Nilsson

and Namrata Nath
Time frame:: 01 November 2024 - 30 June 2029
Faculty/department:: Department of Materials Science and Applied Mathematics
Research subject:: Physical Sciences

About the project

The aim of our project on Atomic data to decipher the cosmic origin of heavy elements is to provide the astronomical community with complete and accurate atomic data for the heavy elements to decipher the cosmic origin of neutron capture elements. We in particular target the s-process elements Y, Zr, La, Ce and the r-process elements Ag, Eu and Ho.

A major production site for the heavy elements is the neutron star merger and its subsequent ejecta. Atomic data are needed to model the merger and its light curve, as well as the kilonova afterglow spectra. We target the data need for both these stages as well as for stellar spectroscopy probing additional production sites. Our research method is a combination of experimental and computational atomic spectroscopy. We provide parameters, such as wavelengths, oscillator strengths and hyperfine structures.

Techniques used are high- resolution Fourier Transform Spectroscopy in combination with state of-the-art quantum mechanical atomic structure calculations. The novelty lies in the use of newly developed methods to fine-tune the calculations with recorded data, which is key to produce complete and accurate data for complex heavy elements needed for the kilonova analysis and stellar spectroscopy.