Erxi Xiao scite author profile

The neutron capture cross section of $$ ^{181} $$ 181 Ta is relevant to s-process of nuclear astrophysics, extraterrestrial samples analysis in planetary geology and new generation nuclear energy system design. The $$^{181}$$ 181 Ta($$n,\gamma $$ n , γ ) cross section had been measured between 1 eV and 800 keV at the back-streaming white neutron facility (Back-n) of China spallation neutron source(CSNS) using the time-of-flight (TOF) technique and $$\hbox {C}_{6}\,\hbox {D}_{6}$$ C 6 D 6 liquid scintillator detectors. The experimental results are compared with the data of several evaluated libraries and previous experiments in the resolved and unresolved resonance region. Resonance parameters are extracted using the R-Matrix code SAMMY in the 1–700 eV region. The astrophysical Maxwell average cross section(MACS) from kT = 5 to 100 keV is calculated over a sufficiently wide range of neutron energies. For the characteristic thermal energy of an astrophysical site, at kT = 30keV the MACS value of $$^{181}$$ 181 Ta is 834 ± 75 mb, which shows an obvious discrepancy with the Karlsruhe Astrophysical Database of Nucleosynthesis in Stars (KADoNiS) recommended value 766 ± 15 mb. The new measurements strongly constrain the MACS of $$^{181}$$ 181 Ta($$n,\gamma $$ n , γ ) reaction in the stellar s-process temperatures.

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Contributions of quasifission and fusion-fission in the Mg24 + Hf178 reaction at 145 MeV laboratory beam energy using the Boltzmann-Uehling-Uhlenbeck model

Feng

Huang

Xiao

et al. 2023

Phys. Rev. C

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Erxi Xiao

Fluctuations of the largest fragment charge in projectile fragmentation and its nonequilibrium effect

Measurement of the $$\varvec{^{nat}}$$Eu($$\varvec{n,\gamma }$$) cross section up to 500 keV at the CSNS Back-n facility, and the stellar $$\varvec{^{151,153}}$$Eu($$\varvec{n,\gamma }$$) cross section at s-process temperatures

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Measurement of the $$ ^{181} $$Ta($$n,\gamma $$) cross sections up to stellar s-process temperatures at the CSNS Back-n

Contributions of quasifission and fusion-fission in the Mg24 + Hf178 reaction at 145 MeV laboratory beam energy using the Boltzmann-Uehling-Uhlenbeck model

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