Influence of nuclear physics inputs and astrophysical conditions on the Th/U chronometer

Zhongming Niu; Baohua Sun; Jie Meng

doi:10.1103/PhysRevC.80.065806

Influence of nuclear physics inputs and astrophysical conditions on the Th/U chronometer

Zhongming Niu^*
, Baohua Sun
, Jie Meng

^*Corresponding author for this work

School of Physics

Peking University
Justus Liebig University Giessen
Beihang University
Stellenbosch University

Research output: Contribution to journal › Article › peer-review

76 Scopus citations

Abstract

The productions of thorium and uranium are key ingredients in r-process nucleo-cosmochronology. With the combination of improved nuclear and stellar data, we have made a detailed investigation of the r-process abundance pattern in the very metal-poor halo stars based on the classical r-process approach. It is found that the results are almost independent of specified simulations to observed abundances. The influence from nuclear mass uncertainties on a Th/U chronometer can approach 2 Gyr. Moreover, the ages of the metal-poor stars HE 1523-0901, CS 31082-001, and BD +17°3248 are determined as 11.8±3.7, 13.5±2.9, and 10.9±2.9 Gyr, respectively. The results can serve as an independent check for age estimates of the Universe.

Original language	English
Article number	065806
Journal	Physical Review C - Nuclear Physics
Volume	80
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevC.80.065806
State	Published - 22 Dec 2009

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10.1103/PhysRevC.80.065806

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abstract = "The productions of thorium and uranium are key ingredients in r-process nucleo-cosmochronology. With the combination of improved nuclear and stellar data, we have made a detailed investigation of the r-process abundance pattern in the very metal-poor halo stars based on the classical r-process approach. It is found that the results are almost independent of specified simulations to observed abundances. The influence from nuclear mass uncertainties on a Th/U chronometer can approach 2 Gyr. Moreover, the ages of the metal-poor stars HE 1523-0901, CS 31082-001, and BD +17°3248 are determined as 11.8±3.7, 13.5±2.9, and 10.9±2.9 Gyr, respectively. The results can serve as an independent check for age estimates of the Universe.",

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doi = "10.1103/PhysRevC.80.065806",

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AU - Niu, Zhongming

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N2 - The productions of thorium and uranium are key ingredients in r-process nucleo-cosmochronology. With the combination of improved nuclear and stellar data, we have made a detailed investigation of the r-process abundance pattern in the very metal-poor halo stars based on the classical r-process approach. It is found that the results are almost independent of specified simulations to observed abundances. The influence from nuclear mass uncertainties on a Th/U chronometer can approach 2 Gyr. Moreover, the ages of the metal-poor stars HE 1523-0901, CS 31082-001, and BD +17°3248 are determined as 11.8±3.7, 13.5±2.9, and 10.9±2.9 Gyr, respectively. The results can serve as an independent check for age estimates of the Universe.

AB - The productions of thorium and uranium are key ingredients in r-process nucleo-cosmochronology. With the combination of improved nuclear and stellar data, we have made a detailed investigation of the r-process abundance pattern in the very metal-poor halo stars based on the classical r-process approach. It is found that the results are almost independent of specified simulations to observed abundances. The influence from nuclear mass uncertainties on a Th/U chronometer can approach 2 Gyr. Moreover, the ages of the metal-poor stars HE 1523-0901, CS 31082-001, and BD +17°3248 are determined as 11.8±3.7, 13.5±2.9, and 10.9±2.9 Gyr, respectively. The results can serve as an independent check for age estimates of the Universe.

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JO - Physical Review C - Nuclear Physics

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Influence of nuclear physics inputs and astrophysical conditions on the Th/U chronometer

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