NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = C.Xia Found 11 matches. 2024BA01 Nucl.Instrum.Methods Phys.Res. A1058, 168912 (2024) H.Bai, H.Yi, Y.Sun, Z.Cui, Y.Hu, J.Liu, C.Xia, W.Cao, T.Fan, G.Zhang, R.Fan, Y.Li, W.Jiang, Y.Chen, Y.Lv, W.Jia, Z.Zhang, H.Chen, Z.Chen, M.Zhao, C.Feng, S.Liu Measurement of cross section for the 232Th(n, f) reaction using a time projection chamber NUCLEAR REACTIONS 232Th(n, F), E=5 MeV; measured reaction products; deduced σ. Comparison with JENDL-4, ROSFOND-2010, CENDL-3.2, ENDF/B-VIII.0, and BROND-3.1 libraries.
doi: 10.1016/j.nima.2023.168912
2024HU03 Eur.Phys.J. A 60, (2024) Y.Hu, Yu.M.Gledenov, Z.Cui, J.Liu, H.Bai, C.Xia, Zh.Chen, Z.Wu, W.Ren, W.Cao, T.Fan, G.Zhang, E.Sansarbayar, G.Khuukhenkhuu, L.Krupa, I.Chuprakov, Q.Fan, X.Ruan, H.Huang, J.Ren, Y.Gao, X.Yang Cross section measurement for the 14N(n, α0, 1)11B reactions in the 4.5–11.5 MeV neutron energy region NUCLEAR REACTIONS 14N(n, α), E=4.5 -11.5 MeV; measured reaction products, En, In, Eα, Iα; deduced σ and uncertainties. Comparison with EXFOR, ENDF/B-VIII.0, ENDF/B-VII.1, JEFF-3.3, CENDL-3.2, ROSFOND-2010, ADS-2.0, JENDL-5, BROND-3.1, BROND-2.2, FENDL-3.2b, and TENDL-2021 libraries. The 4.5 MV Van de Graaff accelerator at Peking University and the HI-13 tandem accelerator of China Institute of Atomic Energy (CIAE).
doi: 10.1140/epja/s10050-024-01268-9
2023LI22 J.Phys.(London) G50, 045106 (2023) J.Liu, Z.Cui, Y.Hu, H.Bai, Y.Yang, X.Ruan, C.Xia, J.Chen, G.Zhang, Y.M.Gledenov, E.Sansarbayar, G.Khuukhenkhuu, L.Krupa, I.Chuprakov, H.Huang, J.Ren, Q.Fan, Y.Gao, X.Yang 63Cu(n, α)60Co cross sections in the MeV region NUCLEAR REACTIONS 63Cu(n, α), 238U(n, F), E=4.5-10.5 MeV; measured reaction products, Eγ, Iγ; deduced σ using both the direct measurement method and the activation method, preference of ENDF/B-VII.1 over ENDF/B-VIII.0 library. Comparison with TALYS-1.9 calculations. The 4.5 MV Van de Graaff accelerator at Peking University (PKU) and the HI-13 tandem accelerator at the China Institute of Atomic Energy (CIAE).
doi: 10.1088/1361-6471/acb960
2023LI24 Phys.Lett. B 842, 137985 (2023) J.Liu, Z.Cui, Y.Hu, H.Bai, Z.Chen, C.Xia, T.Fan, J.Chen, G.Zhang, X.Ruan, H.Huang, J.Ren, H.Chen 12C(n, n, + 3α) and 12C(n, α0)9Be cross sections in the MeV neutron energy region NUCLEAR REACTIONS 12C(n, n3α), (α, α), E=9.5-14.67 MeV; measured reaction products; deduced σ. Comparison with R-matrix RAC code analysis, JEFF-3.1/A library. The HI-13 tandem accelerator and Cockcroft-Walton generator at China Institute of Atomic Energy (CIAE).
doi: 10.1016/j.physletb.2023.137985
2022XI02 Phys.Rev. C 105, 045803 (2022) C.-J.Xia, B.Y.Sun, T.Maruyama, W.-H.Long, A.Li Unified nuclear matter equations of state constrained by the in-medium balance in density-dependent covariant density functionals ATOMIC MASSES A=20-260; calculated binding energies, energy per baryon of finite nuclei. Thomas-Fermi approximation framework with two covariant density functionals DD-LZ1 and DD-ME2. Comparison with data from AME2016.
doi: 10.1103/PhysRevC.105.045803
2021LI01 Phys.Rev. C 103, 014616 (2021) Y.Liu, Y.Wang, Y.Cui, C.-J.Xia, Z.Li, Y.Chen, Q.Li, Y.Zhang Insights into the pion production mechanism and the symmetry energy at high density
doi: 10.1103/PhysRevC.103.014616
2021XI04 Phys.Rev. C 103, 055812 (2021) C.-J.Xia, T.Maruyama, N.Yasutake, T.Tatsumi, Y.-X.Zhang Nuclear pasta structures and symmetry energy NUCLEAR STRUCTURE 208Pb; calculated symmetry energy and its slope of nuclear matter, neutron skin thickness, proton and neutron density profiles using Thomas-Fermi approximation. Investigated nuclear pasta structures in a three-dimensional geometry with reflection symmetry using RMF model with Thomas-Fermi approximation; deduced similarity of droplets and bubbles in body-centered cubic (bcc) and face-centered cubic (fcc) lattices, with impact on properties of neutron stars, supernova dynamics, and binary neutron star mergers.
doi: 10.1103/PhysRevC.103.055812
2020ZH08 Phys.Rev. C 101, 034303 (2020) Y.Zhang, M.Liu, C.-J.Xia, Z.Li, S.K.Biswal Constraints on the symmetry energy and its associated parameters from nuclei to neutron stars NUCLEAR REACTIONS 112,124Sn(124Sn, X), (112Sn, X), E=35, 50 MeV/nucleon; analyzed symmetry energy and related set of 22 nuclear matter parameters by comparing the isospin diffusion data to transport model calculations in five-dimensional parameter space. 208Pb; calculated neutron skin of 208Pb using the deduced nuclear matter parameter set and the restricted density variational (RDV) method. Calculated properties of a neutron star, such as the tidal deformability and maximum mass, and compared with the current constraints.
doi: 10.1103/PhysRevC.101.034303
2018LI43 Phys.Rev. C 98, 024316 (2018) Z.-X.Liu, C.-J.Xia, W.-L.Lu, Y.-X.Li, J.N.Hu, T.-T.Sun Relativistic mean-field approach for Λ, Ξ and Σ Hypernuclei NUCLEAR STRUCTURE 17O, 17N, 17F, 41Ca, 41K, 41Sc, 91Zr, 91Nb, 91Y, 209Pb, 209Tl, 209Bi; calculated mean-field potentials, single-particle levels, density distributions, energies, radii, tensor potentials, and binding energies for hyperons (Λ, Ξ and Σ) in the hypernuclei, starting with the core nuclei of 16O, 40Ca and 208Pb. Relativistic mean-field model. Comparison with available experimental data.
doi: 10.1103/PhysRevC.98.024316
2018SU02 Chin.Phys.C 42, 025101 (2018) T.-T.Sun, C.-J.Xia, S.-S.Zhang, M.S.Smith Massive neutron stars and Λ-hypernuclei in relativistic mean field models NUCLEAR STRUCTURE 208Pb, 139La, 89Y, 51V, 40Ca, 28Si, 16O; calculated predicted single binding energies of hypernuclei using the effective interactions PK1 and TM1. Comparison with the experimental data.
doi: 10.1088/1674-1137/42/2/025101
2009LU19 Phys.Rev. A 80, 051201 (2009) H.Y.Lu, J.S.Liu, C.Wang, W.T.Wang, Z.L.Zhou, A.H.Deng, C.Q.Xia, Y.Xu, X.M.Lu, Y.H.Jiang, Y.X.Leng, X.Y.Liang, G.Q.Ni, R.X.Li, Z.Z.Xu Efficient fusion neutron generation from heteronuclear clusters in intense femtosecond laser fields NUCLEAR REACTIONS 2H(γ, xnyp), E not given; measured densities and average kinetic energies of deuterium ions; deduced fusion neutron yields as a function of laser energy.
doi: 10.1103/PhysRevA.80.051201
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