Modelling the Chemical Evolution of the Milky Way: Short-lived Radioactive Isotopes from AGB Stars and the impact of SNe Ia
(2023)
Thesis
Trueman, T. (2023). Modelling the Chemical Evolution of the Milky Way: Short-lived Radioactive Isotopes from AGB Stars and the impact of SNe Ia. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4366004
All Outputs (4)
The RADIOSTAR Project (2022)
Journal Article
Lugaro, M., Côté, B., Pignatari, M., Yagüe López, A., Brinkman, H., Cseh, B., …Világos, B. (2022). The RADIOSTAR Project. Universe, 8(2), Article 130. https://doi.org/10.3390/universe8020130Radioactive nuclei are the key to understanding the circumstances of the birth of our Sun because meteoritic analysis has proven that many of them were present at that time. Their origin, however, has been so far elusive. The ERC-CoG-2016 RADIOSTAR p... Read More about The RADIOSTAR Project.
Galactic Chemical Evolution of Radioactive Isotopes with an s-process Contribution (2022)
Journal Article
Trueman, T. C. L., Côté, B., Yagüe López, A., Den Hartogh, J., Pignatari, M., Soós, B., …Lugaro, M. (2022). Galactic Chemical Evolution of Radioactive Isotopes with an s-process Contribution. The Astrophysical journal, 924(1), 10. https://doi.org/10.3847/1538-4357/ac31b0Analysis of inclusions in primitive meteorites reveals that several short-lived radionuclides (SLRs) with half-lives of 0.1-100 Myr existed in the early solar system (ESS). We investigate the ESS origin of 107Pd, 135Cs, and 182Hf, which are produced... Read More about Galactic Chemical Evolution of Radioactive Isotopes with an s-process Contribution.
New Thermonuclear Rate of <sup>7</sup>Li(d,n)2<sup>4</sup>He Relevant to the Cosmological Lithium Problem (2021)
Journal Article
Hou, S. Q., Kajino, T., Trueman, T. C., Pignatari, M., Luo, Y. D., & Bertulani, C. A. (2021). New Thermonuclear Rate of 7Li(d,n)24He Relevant to the Cosmological Lithium Problem. The Astrophysical journal, 920(2), Article 145. https://doi.org/10.3847/1538-4357/ac1a11Accurate 7Li(d,n)24He thermonuclear reaction rates are crucial for precise prediction of the primordial abundances of lithium and beryllium and to probe the mysteries beyond fundamental physics and the standard cosmological model. However, uncertaint... Read More about New Thermonuclear Rate of <sup>7</sup>Li(d,n)2<sup>4</sup>He Relevant to the Cosmological Lithium Problem.