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Электронный каталог: Casanovas-Hoste, A. - Shedding Light on the Origin of *2*0*4Pb, the Heaviest s-Process-Only Isotope in the Solar System
Casanovas-Hoste, A. - Shedding Light on the Origin of *2*0*4Pb, the Heaviest s-Process-Only Isotope in the Solar System
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Статья
Автор: Casanovas-Hoste, A.
Physical Review Letters [Electronic resource]: Shedding Light on the Origin of *2*0*4Pb, the Heaviest s-Process-Only Isotope in the Solar System
б.г.
ISBN отсутствует
Автор: Casanovas-Hoste, A.
Physical Review Letters [Electronic resource]: Shedding Light on the Origin of *2*0*4Pb, the Heaviest s-Process-Only Isotope in the Solar System
б.г.
ISBN отсутствует
Статья
Casanovas-Hoste, A.
Shedding Light on the Origin of *2*0*4Pb, the Heaviest s-Process-Only Isotope in the Solar System / A.Casanovas-Hoste, V.Furman, [a.o.] // Physical Review Letters [Electronic resource]. – 2024. – Vol. 133, No. 5. – P. 052702. – URL: https://doi.org/10.1103/PhysRevLett.133.052702. – Bibliogr.: 78.
Asymptotic giant branch stars are responsible for the production of most of the heavy isotopes beyond Sr observed in the solar system. Among them, isotopes shielded from the r-process contribution by their stable isobars are defined as s-only nuclei. For a long time the abundance of 204Pb, the heaviest s-only isotope, has been a topic of debate because state-of-the-art stellar models appeared to systematically underestimate its solar abundance. Besides the impact of uncertainties from stellar models and galactic chemical evolution simulations, this discrepancy was further obscured by rather divergent theoretical estimates for the neutron capture cross section of its radioactive precursor in the neutron-capture flow, 204Tl (t1=2 ¼ 3.78 yr), and by the lack of experimental data on this reaction. We present the first ever neutron capture measurement on 204Tl, conducted at the CERN neutron time-of-flight facility n_TOF, employing a sample of only 9 mg of 204Tl produced at the Institute Laue Langevin high flux reactor. By complementing our new results with semiempirical calculations we obtained, at the s-process temperatures of kT ≈ 8 keV and kT ≈ 30 keV, Maxwellian-averaged cross sections (MACS) of 580(168) mb and 260(90) mb, respectively. These figures are about 3% lower and 20% higher than the corresponding values widely used in astrophysical calculations, which were based only on theoretical calculations. By using the new 204Tl MACS, the uncertainty arising from the 204Tlðn; γÞ cross section on the s-process abundance of 204Pb has been reduced from ∼30% down to þ8%= − 6%, and the s-process calculations are in agreement with the latest solar system abundance of 204Pb reported by K. Lodders in 2021.
ОИЯИ = ОИЯИ (JINR)2024
Спец.(статьи,препринты) = С 341 е - Ядерная астрофизика$
Casanovas-Hoste, A.
Shedding Light on the Origin of *2*0*4Pb, the Heaviest s-Process-Only Isotope in the Solar System / A.Casanovas-Hoste, V.Furman, [a.o.] // Physical Review Letters [Electronic resource]. – 2024. – Vol. 133, No. 5. – P. 052702. – URL: https://doi.org/10.1103/PhysRevLett.133.052702. – Bibliogr.: 78.
Asymptotic giant branch stars are responsible for the production of most of the heavy isotopes beyond Sr observed in the solar system. Among them, isotopes shielded from the r-process contribution by their stable isobars are defined as s-only nuclei. For a long time the abundance of 204Pb, the heaviest s-only isotope, has been a topic of debate because state-of-the-art stellar models appeared to systematically underestimate its solar abundance. Besides the impact of uncertainties from stellar models and galactic chemical evolution simulations, this discrepancy was further obscured by rather divergent theoretical estimates for the neutron capture cross section of its radioactive precursor in the neutron-capture flow, 204Tl (t1=2 ¼ 3.78 yr), and by the lack of experimental data on this reaction. We present the first ever neutron capture measurement on 204Tl, conducted at the CERN neutron time-of-flight facility n_TOF, employing a sample of only 9 mg of 204Tl produced at the Institute Laue Langevin high flux reactor. By complementing our new results with semiempirical calculations we obtained, at the s-process temperatures of kT ≈ 8 keV and kT ≈ 30 keV, Maxwellian-averaged cross sections (MACS) of 580(168) mb and 260(90) mb, respectively. These figures are about 3% lower and 20% higher than the corresponding values widely used in astrophysical calculations, which were based only on theoretical calculations. By using the new 204Tl MACS, the uncertainty arising from the 204Tlðn; γÞ cross section on the s-process abundance of 204Pb has been reduced from ∼30% down to þ8%= − 6%, and the s-process calculations are in agreement with the latest solar system abundance of 204Pb reported by K. Lodders in 2021.
ОИЯИ = ОИЯИ (JINR)2024
Спец.(статьи,препринты) = С 341 е - Ядерная астрофизика$