NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = C.H.Cai Found 20 matches. 2024XU04 Chin.Phys.C 48, 024106 (2024) Y.-L.Xu, X.-W.Su, Zh.-H.Sun, Y.-L.Han, X.-J.Sun, D.-H.Zhang, Ch.-H.Cai Description of elastic scattering for 7Li-induced reactions on 1p-shell nuclei NUCLEAR REACTIONS 9Be, 10,11B, 12,13C, 15N, 16O(7Li, 7Li), E=4.5-131.8 MeV; analyzed available data; deduced σ(θ), the global phenomenological optical potentials (GPOPs), the contribution of elastic transfer by the distorted wave Born approximation (DWBA) method.
doi: 10.1088/1674-1137/ad1924
2022SU04 Int.J.Mod.Phys. E31, 2250001 (2022) Z.-H.Sun, Y.-L.Xu, X.-J.Sun, Y.-L.Han, C.-H.Cai Global phenomenological optical model potential for 14N-nucleus elastic scattering NUCLEAR REACTIONS 24Mg, 27Al, 28,29Si, 32S, 40Ca, 56Fe, 59Co, 58,62Ni, 70,74Ge, 90Zr, 92,100Mo, 118Sn, 208Pb(14N, 14N), E<100 MeV; analyzed available data; deduced global optical model potential parameters, σ, σ(θ).
doi: 10.1142/S021830132250001X
2021XU07 Chin.Phys.C 45, 114103 (2021) Y.-L.Xu, Y.-L.Han, X.-W.Su, X.-J.Sun, H.-Y.Liang, H.-R.Guo, C.-H.Cai Description of elastic scattering induced by the unstable nuclei 9, 10, 11, 13, 14C NUCLEAR REACTIONS 208Pb(9C, 9C), (11C, 11C), E=222-227 MeV; 27Al, 58Ni, 208Pb(10C, 10C), E=29.1-256 MeV; 28Si, 208Pb(9C, 9C), E<500 MeV; 28Si, 208Pb(11C, 11C), E<500 MeV; 28Si(13C, 13C), E=25-60 MeV; 40Ca, 56Fe, 60Ni, 66Zn, 88Sr(14C, 14C), E=51 MeV; 92,100Mo(14C, 14C), E=71 MeV; 28Si(14C, 14C), E<500 MeV; analyzed available data; deduced σ, σ(θ), global optical model potentials.
doi: 10.1088/1674-1137/ac1fe1
2020XU03 Chin.Phys.C 44, 034101 (2020) Y.-L.Xu, Y.-L.Han, H.-Y.Liang, Z.-D.Wu, H.-R.Guo, C.-H.Cai Applicability of 9Be global optical potential to description of 8, 10, 11B elastic scattering NUCLEAR REACTIONS 12C, 27Al, 28Si, 58Ni, 208Pb(8B, 8B), 9Be, 12C, 16O, 28Si, 58Ni, 120Sn, 208Pb(10B, 10B), 12C, 28Si, 58Ni, 208Pb, 209Bi(11B, 11B), E<50 MeV; analyzed available data. 8,10,11B; calculated σ; deduced global phenomenological optical model potentials.
doi: 10.1088/1674-1137/44/3/034101
2020XU04 Chin.Phys.C 44, 034101 (2020) Y.-L.Xu, Y.-L.Han, H.-Y.Liang, Z.-D.Wu, H.-R.Guo, C.-H.Cai Applicability of 9Be global optical potential to description of 8, 10, 11B elastic scattering NUCLEAR REACTIONS 27Al, 58Ni, 208Pb, 12C, 28Si(8B, 8B), E<100 MeV; 27Al, 28Si, 58Ni, 120Sn, 16O, 9Be, 208Pb(10B, 10B), E<100 MeV; 28Si, 58Ni, 209Bi, 12C, 209Bi(11B, 11B), E<100 MeV; analyzed available data. 9Be; deduced optical model potential parameters, σ, σ(θ).
doi: 10.1088/1674-1137/44/3/034101
2020XU10 Chin.Phys.C 44, 124103 (2020) Y.-L.Xu, Y.-L.Han, X.-W.Su, X.-J.Sun, H.-Y.Liang, H.-R.Guo, C.-H.Cai Global optical model potential describing 12C-nucleus elastic scattering NUCLEAR REACTIONS 24Mg, 28Si, 32S, 39K, 40,42,48Ca, 50Cr, 56Fe, Fe, 58,64Ni, Ni, 90,91,92,94,96Zr, 92Mo, 116,117,118,119,120,122,124Sn, 194,198Pt, 208Pb, 209Bi(12C, 12C), E<200 MeV; analyzed available data; deduced a new global optical model potential parameters.
doi: 10.1088/1674-1137/abb4d0
2018GU18 Chin.Phys.C 42, 124101 (2018) Double differential cross sections of light charged particle production for the n+238U reaction NUCLEAR REACTIONS 238U(n, X)1H/2H/3H/4He, E<150 MeV; calculated fission σ, ←E). Comparison with ENDF/B-VII, JENDL-4. evaluated libraries.
doi: 10.1088/1674-1137/42/12/124101
2017SU16 Phys.Rev. C 95, 054606 (2017) X.W.Su, Y.L.Han, H.Y.Liang, Z.D.Wu, H.R.Guo, C.H.Cai Global phenomenological optical model potential for 8Li projectile NUCLEAR REACTIONS 9Be(8Li, 8Li), E=14, 19.6, 27 MeV; 12C(8Li, 8Li), E=14, 23.9 MeV; 13C, 14N, 27Al, 197Au(8Li, 8Li), E=14 MeV; 51V(8Li, 8Li), E=18.5, 26 MeV; 58Ni(8Li, 8Li), E=14, 19.6, 20.2, 22 MeV; 208Pb(8Li, 8Li), E=24.4, 27.9, 28.9, 30.6, 33.1 MeV; calculated σ(θ, E) by optical potential model, and compared with experimental data; deduced global phenomenological optical model parameters (OMPs) for 8Li. 9Be(8Li, X), E=19.6 MeV; 12C(8Li, X), E=14 MeV; 51V(8Li, X), E=18.5, 26.0 MeV; 208Pb(8Li, X), E=24.4, 27.6, 28.89, 30.57, 33.13 MeV; calculated total σ(E), and compared with experimental data.
doi: 10.1103/PhysRevC.95.054606
2016SU13 Int.J.Mod.Phys. E25, 1650033 (2016) X.-W.Su, Y.-L.Han, H.-Y.Liang, Z.-D.Wu, H.-R.Guo, C.-H.Cai Global 6He optical model potential NUCLEAR REACTIONS 6,7Li, 9Be, 12C, 27Al, 28Si, 51V, 48Ti, 58Ni, 63,65Cu, 64Zn, 120Sn, 197Au, 206,208Pb, 209Bi(6He, X), (6He, 6He), E<300 MeV; analyzed available data; deduced optical potential; calculated σ, σ(θ).
doi: 10.1142/S0218301316500336
2009LI01 J.Phys.(London) G36, 015102 (2009) C.-T.Liang, Y.-A.Luo, X.-H.Li, C.-H.Cai Systematic analysis of the reaction cross section for d, 3He and 4He as projectiles NUCLEAR REACTIONS 9Be, 12C, 16O, 28Si, 40,48Ca, 58,60Ni, 112,116,120,124Sn, 208Pb(d, X), (3He, X), (α, X), E < 100 MeV/nucleon; calculated total reaction cross sections.
doi: 10.1088/0954-3899/36/1/015102
2009LI26 J.Phys.(London) G36, 085104 (2009) Global 3He optical model potential below 270 MeV NUCLEAR REACTIONS 9Be, 10,11B, 12,13C, 14N, 16,17,18O, 20,22Ne, 23Na, 24,25,26Mg, 27Al, 28Si, 31P, 40Ar, 40,44,48Ca, 51V, 52Cr, 54,56Fe, 59Co, 58,60,61,62,64Ni, 89Y, 90,92,94Zr, 105Pd, 114Cd, 115In, 116,118,120Sn, 144,148,150,152,154Sm, 197Au, 205Tl, 208Pb(N, N), E ≤ 270 MeV; calculated σ, σ(θ); deduced 3He optical model potential parameters. Code CAPMN, comparison with experiment.
doi: 10.1088/0954-3899/36/8/085104
2009LI60 Chin.Phys.C 33, 415 (2009) Comparison between global phenomenological and microscopic optical potentials for proton as projectile below 100 MeV NUCLEAR REACTIONS Mg, Al, Si, P, S, Cl, Ar, K, Ca, Sc, Ti, V, Cr, Fe, Co, Ni, Cu, Zn, Ge, Se, Sr, Y, Zr, Mo, Rh, Pd, Cd, In, Sn, Te, Ba, La, Ce, Nd, Sm, Gd, Tb, Dy, Ho, Er, Tm, Yb, Hf, Ta, W, Os, Pt, Au, Pb, Bi, Th, U(p, p), E<100MeV; calculated incoming proton σ, elastic scattering σ(θ). Optical model potentials.
doi: 10.1088/1674-1137/33/6/003
2007LI41 Nucl.Sci.Eng. 157, 159 (2007) Calculation and Analysis for p + 58, 60, 61, 62, 64Ni Reactions Below 200 MeV NUCLEAR REACTIONS 58,60,61,62,64Ni(p, X), E < 200 MeV; analyzed cross sections and angular distributions. Compared results to ENDF/B6.
doi: 10.13182/NSE07-A2720
2006CA13 Nucl.Sci.Eng. 153, 93 (2006) MEND: A Program for Calculating the Complete Set of Nuclear Data of Medium-Heavy Nuclei in a Medium-Low Energy Region
doi: 10.13182/NSE05-06CCA
2004TA36 Phys.Rev. C 70, 054306 (2004) Yu.-H.Tan, X.-H.Zhong, C.-H.Cai, P.-Z.Ning Effect of different baryon impurities NUCLEAR STRUCTURE 6Li, 10B, 12C, 16O, 40Ca, 208Pb; calculated binding energies, radii. 7Li, 11B, 13C, 17O, 41Ca, 209Pb; calculated hypernucleus binding energies, radii. Effects of different baryon impurities discussed.
doi: 10.1103/PhysRevC.70.054306
2003CA42 Europhys.Lett. 64, 448 (2003) C.H.Cai, L.Li, Y.H.Tan, P.Z.Ning Could Λ+c hypernuclei exist? NUCLEAR STRUCTURE 11B, 12,13C, 16O, 28Si, 32S, 40Ca, 51V, 89Y, 139La, 208Pb; calculated hypernucleus binding energies for Λ and Λc hyperons.
doi: 10.1209/epl/i2003-00610-x
2000TA22 Chin.Phys.Lett. 17, 401 (2000) Yu-H.Tan, Y.-A.Luo, P.-Z.Ning, C.-H.Cai Shell Model Analysis of Ξ- Hypernuclei Spectra for Mass A = 12 and A = 16 NUCLEAR STRUCTURE 12Be, 16C; calculated hypernuclei binding and single particle energies, level, J, π. Effect of residual interaction investigated.
1996SH11 Chin.Phys.Lett. 13, 343 (1996) H.Shen, P.-Z.Ning, C.-H.Cai, H.-Y.Wang On the A -Dependence of the Okamoto-Nolen-Schiffer Anomaly NUCLEAR STRUCTURE A ≤ 40; analyzed mirror nuclei mass differences; deduced Okamoto-Nolen-Schiffer anomaly related features.
doi: 10.1088/0256-307X/13/5/007
1995CA44 Chin.J.Nucl.Phys. 17, No 2, 95 (1995) C.H.Cai, P.Z.Ning, H.Shen, Z.M.Xue, S.Y.Yu Unconventional Medium Effect in K+ Scattering from 6Li, 12C, 28Si and 40Ca NUCLEAR REACTIONS 6Li, 12C, 28Si, 40Ca(K+, K+), E at 400-800 MeV/c; analyzed σ(θ), σ ratio. Quark NJL model.
1995SH46 Chin.J.Nucl.Phys. 17, No 2, 102 (1995) H.Shen, P.-Z.Ning, C.-H.Cai, L.-C.Xiang Influence of the In-Medium Nucleon Swelling on Pion-Nucleus Scattering at High Energy NUCLEAR REACTIONS 12C(K+, K+), E at 800 MeV/c; analyzed σ(θ); deduced nucleon swelling evidence. Optical model.
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