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NSR database version of April 11, 2024.

Search: Author = T.Ye

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2024CH15      Chin.Phys.C 48, 014101 (2024)

W.Chen, D.Pang, H.Guo, T.Ye, W.Sun, Y.Ying

Elastic scattering and total reaction cross sections of 6Li examined via a microscopic continuum discretized coupled-channels model

NUCLEAR REACTIONS 27Al, 64Zn, 138Ba, 208Pb(6Li, 6Li), (6Li, X) E<50 MeV; analyzed available data; deduced σ, σ(θ) at incident energies around the Coulomb barrier within the continuum discretized coupled-channels (CDCC) framework.

doi: 10.1088/1674-1137/ad0453
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2023QI03      Phys.Rev. C 107, 024606 (2023)

Y.Qiu, C.Lan, Y.Chen, L.Jiang, J.Bao, Y.Yang, Z.Wen, R.Liu, X.Ruan, J.Tang, J.Ren, H.Jing, G.Luan, R.Fan, Y.Nie, X.Yang, X.Li, H.Yi, W.Jiang, T.Ye, Y.Yang, S.Liu, J.Wang

Measurement of the 239Pu(n, f) cross section from 4 keV to 100 MeV using the white neutron source at the CSNS Back-n facility

NUCLEAR REACTIONS 235U, 239Pu(n, F), E=0.004-100 MeV; measured neutron ToF, En, fission fragments; deduced fission σ(E) for 239Pu(n, F) relative to known σ(e) for 235U(n, F) reaction. Comparison to CENDL-3.2, ENDF/B-VIII.0, JENDL-4.0/HE, JEFF-3.3 and BROND-3.1 evaluations, other experimental data and TALYS-1.95 calculations. Fast fission ionization chamber for the fission cross section measurement (FIXM). Neutrons from 1.6 GeV proton beam impinging on thick W-target at the China Spallation Neutron Source (CSNS).

2022CH45      J.Phys.(London) G49, 075104 (2022)

W.Chen, H.Guo, T.Ye, Y.-J.Ying, W.Sun, Y.Han

Application of the Lagrange-mesh method in continuum-discretized coupled-channel calculations

NUCLEAR REACTIONS 58Ni(d, X), E=80 MeV; 12C(6Li, X), E=168.6, 178 MeV; 59Co(6Li, X), E=12, 17.4, 18 MeV; analyzed available data; calculated the bound states and discretize the continuum states of weakly bound nuclei using the continuum-discretized coupled-channel (CDCC) method.

doi: 10.1088/1361-6471/ac7249
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2022GU01      Nucl.Sci.Eng. 196, 40 (2022)

H.Guo, W.Chen, Y.Han, X.Sun, T.Ye, W.Sun

Theoretical Calculations and Evaluations of Neutron-Induced Reactions on 121Sb, 123Sb, and Natural Sb

NUCLEAR REACTIONS 121,123Sb(n, X), Sb(n, n), (n, X), E<20 MeV; calculated σ, σ(θ). Comparison with CENDL-3, JENDL-4 libraries, experimental data.

doi: 10.1080/00295639.2021.1940067
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2021GU15      Ann.Nucl.Energy 158, 108248 (2021)

H.Guo, W.Chen, T.Ye, W.Sun, Y.Han, C.Cai

Theoretical calculation of n+235U reaction

NUCLEAR REACTIONS 235U(n, X)1NN/1H/2H/3H/3He/4He, E<150 MeV; calculated particle emission and γ-ray production σ, σ(θ), σ(θ, E). Comparison with ENDF/B-VIII.0 and JENDL-4.0 evaluated libraries.

doi: 10.1016/j.anucene.2021.108248
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2020CH17      Chin.Phys.C 44, 054109 (2020)

W.-D.Chen, H.-R.Guo, W.-L.Sun, T.Ye, Y.-J.Ying, Y.-L.Han, Q.B.Shen

Microscopic study of 7Li-nucleus potential

NUCLEAR REACTIONS 58Ni, 27Al, 65Cu, 89Y, 116Sn, 138Ba, 208Pb, 28Si, 13C(7Li, 7Li), E<300 MeV; analyzed available data. 7Li; calculated σ.

doi: 10.1088/1674-1137/44/5/054109
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2020CH49      J.Phys.(London) G47, 025106 (2020)

W.Chen, H.Guo, W.Sun, T.Ye, Y.J.Ying, Y.Han, Q.Shen

Microscopic optical potential for 7Li

NUCLEAR REACTIONS 40,44,48Ca, 56Fe, 60,62Ni, 64,68Zn, 90Zr, 46,48Ti, 140Ce, 142Nd, 28Si, 80Se, 120Sn, 144Sm, 208Pb(7Li, X), E<100 MeV; calculated σ(θ), σ. Comparison with available data.

doi: 10.1088/1361-6471/ab52d3
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2020GU07      Ann.Nucl.Energy 142, 107363 (2020)

H.Guo, W.Chen, T.Ye, W.Sun, Y.Han, C.Cai

Theoretical calculation and evaluation of N + 237, 241, 243, 245Pu reactions

NUCLEAR REACTIONS 237Pu(n, F), 241Pu(n, X), (n, γ), (n, F), Pu(n, X), (n, n'), (n, 2n), E<20 MeV; calculated σ using the optical model, distorted wave Born approximation theory, Hauser-Feshbach theory with width fluctuation correction, fission model, evaporation model, exciton model and the intranuclear cascade model. Comparison with ENDF/B-VIII, JENDL-4.0/HE and TENDL libraries.

doi: 10.1016/j.anucene.2020.107363
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2020RE11      Phys.Rev. C 102, 034604 (2020)

Z.Ren, Y.Yang, J.Wen, H.Guo, Z.Wen, R.Liu, Z.Han, W.Sun, X.Liu, Q.Chen, T.Ye, Q.An, H.Bai, J.Bao, P.Cao, Y.Chen, P.Cheng, Z.Cui, R.Fan, C.Feng, M.Gu, F.Guo, C.Han, G.He, Y.He, Y.He, H.Huang, W.Huang, X.Huang, X.Ji, X.Ji, H.Jiang, W.Jiang, H.Jing, L.Kang, M.Kang, B.Li, L.Li, Q.Li, X.Li, Y.Li, Y.Li, S.Liu, G.Luan, Y.Ma, C.Ning, B.Qi, J.Ren, X.Ruan, Z.Song, H.Sun, X.Sun, Z.Sun, Z.Tan, H.Tang, J.Tang, P.Wang, Q.Wang, T.Wang, Y.Wang, Z.Wang, Z.Wang, Q.Wu, X.Wu, X.Wu, L.Xie, H.Yi, L.Yu, T.Yu, Y.Yu, G.Zhang, J.Zhang, L.Zhang, L.Zhang, Q.Zhang, Q.Zhang, X.Zhang, Y.Zhang, Z.Zhang, Y.Zhao, L.Zhou, Z.Zhou, D.Zhu, K.Zhu, P.Zhu

Measurement of the 236U(n, f) cross section for neutron energies from 0.4 MeV to 40 MeV from the back-streaming white neutron beam at the China Spallation Neutron Source

NUCLEAR REACTIONS 235,236U(n, F), E AP 0.4-40 MeV beam from the China Spallation Neutron Source (CSNS)-Back-streaming white neutron source (WNS); measured fission fragments, energy spectra, time-of-flight using Fast Ionization Chamber Spectrometer; deduced 236U(n, F)/235U(n, F) cross section ratios. Comparison with theoretical calculation using the UNF code, and with evaluated data in JENDL-4.0, CENDL-3.1, and ENDF/B-VIII.0 libraries.

doi: 10.1103/PhysRevC.102.034604
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset32811.

2017GU06      Phys.Rev. C 95, 034614 (2017)

H.Guo, H.Liang, Y.Xu, Y.Han, Q.Shen, C.Cai, T.Ye

Microscopic optical potential for 6He

NUCLEAR REACTIONS 12C(6He, 6He), E=8.79, 9.18, 9.9, 18, 230, 250 MeV; 27Al(6He, 6He), E=9.54, 11.0, 12.0, 13.4 MeV; 51V(6He, 6He), E=15.4, 23.0 MeV; 58Ni(6He, 6He), E=9.0, 10.0, 12.2, 16.5, 21.7 MeV; 64Zn(6He, 6He), E=10.0, 13.6 MeV; 65Cu(6He, 6He), E=19.56, 22.6, 30.05 MeV; 120Sn(6He, 6He), E=17.4, 18.05, 19.8, 20.05 MeV; 197Au(6He, 6He), E=10.1, 27.0 MeV; 209Bi(6He, 6He), E=14.71, 16.26, 17.8, 19.0, 19.14, 22.02, 22.5 MeV; 208Pb(6He, 6He), E=14.0, 16, 18, 22, 27, 56.6 MeV; 9Be(6He, 6He), E=16.2, 16.8, 21.3, 150 MeV; calculated differential σ(θ, E) relative to Rutherford cross section using microscopic optical potential (MOP) and global phenomenological 6He optical potential (GOP) based on experimental data. 28Si(6He, X), E<330 MeV; calculated total σ(E) using MOP and GOP. Comparison with experimental data. Isospin-dependent nucleon microscopic optical potential derived by using Green's function method through the nuclear matter approximation and the local density approximation based on the Skyrme nucleon-nucleon effective interaction.

doi: 10.1103/PhysRevC.95.034614
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2017GU11      Nucl.Sci.Eng. 186, 156 (2017)

H.Guo, Y.Xu, Y.Han, Q.Shen, T.Ye, W.Sun

Calculation and Evaluation for the n+51V Reaction

NUCLEAR REACTIONS 51V(n, n), E<300 MeV; calculated σ, σ(E), σ(θ), σ(θ, E). Optical model, distorted wave Born approximation theory, Hauser-Feshbach theory, evaporation model, exciton model, and intranuclear cascade model, comparison with the experimental data and the evaluated results in ENDF/B-VII.1 and JENDL-4 libraries.

doi: 10.1080/00295639.2016.1273008
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2017GU15      Ann.Nucl.Energy 108, 151 (2017)

H.Guo, Y.Han, T.Ye, W.Sun, C.Cai

Theoretical analysis and evaluation for neutron-induced reaction on 239Pu

NUCLEAR REACTIONS 239Pu(n, X), (n, n), (n, n'), E<200 MeV; calculated σ, σ(θ, E). Comparison with ENDF/B-VII, JENDL-4 libraries, experimental data.

doi: 10.1016/j.anucene.2017.04.043
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2014NA19      Nucl.Data Sheets 118, 305 (2014)

S.Nakayama, S.Araki, Y.Watanabe, O.Iwamoto, T.Ye, K.Ogata

Cross Section Calculations of Deuteron-induced Reactions Using the Extended CCONE Code

NUCLEAR REACTIONS 27Al, 58Ni(d, xp), E=56, 100 MeV; calculated σ(Ep, θ). Compared to data. 27Al(d, d), E=11.2, 63 MeV;58Ni(d, d), E=12, 27.5, 56, 79 MeV; calculated σ(θ). Compared to data. Extended CCONE code with elastic breakup and stripping calculated using CDCC and Glauber model.

doi: 10.1016/j.nds.2014.04.065
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2014YE03      Nucl.Data Sheets 118, 308 (2014)

T.Ye, Y.Watanabe

Systematic Study of Deuteron-induced Reactions from Threshold

NUCLEAR REACTIONS 7Li, 12C, 58Ni, 90Zr, 120Sn, 208Pb(d, x), (d, np), E=threshold-100 MeV/nucleon; calculated σ using Glauber model. Compared with EXFOR data.

doi: 10.1016/j.nds.2014.04.066
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2014YE05      Nucl.Data Sheets 118, 582 (2014)

T.Ye, W.Sun, L.Deng, R.She, G.Xiao

Prompt Neutron Decay Constants of Reflected Systems

doi: 10.1016/j.nds.2014.04.141
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2011WA36      Chin.Phys.Lett. 28, 112401 (2011)

J.Wang, T.Ye, W.-L.Sun, Y.Watanabe, K.Ogata

Inclusive Proton Energy Spectra of the Deuteron Induced Reaction

NUCLEAR REACTIONS 58Ni(d, xn), (d, xp), E<80 MeV; calculated σ(E), σ(θ, E). Coupled channel method combined with Glauber model, comparison with experimental data.

doi: 10.1088/0256-307X/28/11/112401
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2011YE05      J.Korean Phys.Soc. 59, 871s (2011)

T.Ye, S.Hashimoto, Y.Watanabe, K.Ogata, M.Yahiro

Analysis of Inclusive (d, χn) and (d, χp) Reactions for Energies up to 100 MeV

NUCLEAR REACTIONS 9Be, 12C, 27Al, 58Ni, 93Nb, 181Ta, 208Pb, 238U(d, xp), E=100 MeV; calculated σ(θ=80, Ep); 58Ni(d, xp), E=100 MeV; calculated σ(Ep, θ=6, 8, 10, 12, 15, 200); 7Li(d, xn), E=25 MeV; calculated σ(En, θ-0, 5, 10, 150). CDCC plus Glauber model with and without Coulomb breakup. Comparison with data.

doi: 10.3938/jkps.59.871
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2011YE06      Phys.Rev. C 84, 054606 (2011)

T.Ye, S.Hashimoto, Y.Watanabe, K.Ogata, M.Yahiro

Analysis of inclusive (d, xp) reactions on nuclei from 9Be to 238U at 100 MeV

NUCLEAR REACTIONS 9Be, 12C, 27Al, 58Ni, 93Nb, 181Ta, 208Pb, 238U(d, xp), E=100 MeV; analyzed double-differential cross sections as function of proton energy and proton emission angle, energy integrated proton angular distributions, total-proton-production cross sections as function of the atomic number Z. Comparison of CDCC calculations with and without Coulomb breakup of deuteron. Continuum discretized coupled-channels (CDCC) theory and the Glauber model.

doi: 10.1103/PhysRevC.84.054606
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2009YE03      Phys.Rev. C 80, 014604 (2009)

T.Ye, Y.Watanabe, K.Ogata

Analysis of deuteron breakup reactions on 7Li for energies up to 100 MeV

NUCLEAR REACTIONS 7Li(d, xn), (d, xp), (d, d), E=20-100 MeV; analyzed total σ, neutron and proton stripping σ, and elastic breakup σ using continuum discretized coupled channel (CDCC) theory and the Glauber model. Comparison with experimental data at E(d)=40 and 100 MeV and with data for 9Be(d, xp) reaction at E(d)=100 MeV.

doi: 10.1103/PhysRevC.80.014604
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2008YE02      Phys.Rev. C 78, 024611 (2008)

T.Ye, Y.Watanabe, K.Ogata, S.Chiba

Analysis of deuteron elastic scattering from 6, 7Li using the continuum discretized coupled channels method

NUCLEAR REACTIONS 6,7Li(d, d), E=10-50 MeV; calculated phenomenological optical potentials, σ(θ). 6,7Li(p, p), (p, X), (n, n), (n, X), (d, d), E=5-50 MeV; analyzed angular distributions, σ(θ). Continuum discretized coupled channel calculations. Comparison with experimental data.

doi: 10.1103/PhysRevC.78.024611
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