High-temperature $^{205}$Tl decay clarifies $^{205}$Pb dating in early   Solar System

G. Leckenby; R. S. Sidhu; R. J. Chen; R. Mancino; B. Sz\'anyi; M. Bai,; U. Battino; K. Blaum; C. Brandau; S. Cristallo; T. Dickel; I. Dillmann; D.; Dmytriiev; T. Faestermann; O. Forstner; B. Franczak; H. Geissel; R.; Gernh\"auser; J. Glorius; C. Griffin; A. Gumberidze; E. Haettner; P.-M.; Hillenbrand; A. Karakas; T. Kaur; W. Korten; C. Kozhuharov; N. Kuzminchuk; K.; Langanke; S. Litvinov; Y. A. Litvinov; M. Lugaro; G. Mart\'inez-Pinedo; E.; Menz; B. Meyer; T. Morgenroth; T. Neff; C. Nociforo; N. Petridis; M.; Pignatari; U. Popp; S. Purushothaman; R. Reifarth; S. Sanjari; C.; Scheidenberger; U. Spillmann; M. Steck; T. St\"ohlker; Y. K. Tanaka; M.; Trassinelli; S. Trotsenko; L. Varga; D. Vescovi; M. Wang; H. Weick; A.; Yag\"ue L\'opez; T. Yamaguchi; Y. Zhang; J. Zhao

arXiv:2411.08856·nucl-ex·November 14, 2024

High-temperature $^{205}$Tl decay clarifies $^{205}$Pb dating in early Solar System

G. Leckenby, R. S. Sidhu, R. J. Chen, R. Mancino, B. Sz\'anyi, M. Bai,, U. Battino, K. Blaum, C. Brandau, S. Cristallo, T. Dickel, I. Dillmann, D., Dmytriiev, T. Faestermann, O. Forstner, B. Franczak, H. Geissel, R., Gernh\"auser, J. Glorius, C. Griffin, A. Gumberidze

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TL;DR

This study measures the decay rate of fully ionized $^{205}$Tl to improve $^{205}$Pb dating in meteorites, confirming the Sun's formation in a long-lived molecular cloud and enhancing early Solar System chronometry.

Contribution

First experimental measurement of the bound-state $eta^-$ decay of fully ionized $^{205}$Tl, reducing nuclear physics uncertainties in $^{205}$Pb abundance predictions.

Findings

01

Measured $^{205}$Tl decay half-life as 4.7 times longer than previous estimates.

02

Refined $^{205}$Pb yields in AGB stellar models using new decay rates.

03

Confirmed the solar material's isolation time aligns with a long-lived molecular cloud environment.

Abstract

Radioactive nuclei with lifetimes on the order of millions of years can reveal the formation history of the Sun and active nucleosynthesis occurring at the time and place of its birth. Among such nuclei whose decay signatures are found in the oldest meteorites, $^{205}$ Pb is a powerful example, as it is produced exclusively by slow neutron captures (the s process), with most being synthesized in asymptotic giant branch (AGB) stars. However, making accurate abundance predictions for $^{205}$ Pb has so far been impossible because the weak decay rates of $^{205}$ Pb and $^{205}$ Tl are very uncertain at stellar temperatures. To constrain these decay rates, we measured for the first time the bound-state $β^{-}$ decay of fully ionized $^{205}$ Tl $^{81 +}$ , an exotic decay mode that only occurs in highly charged ions. The measured half-life is 4.7 times longer than the previous theoretical…

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