NSR Query Results


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NSR database version of April 11, 2024.

Search: Author = Li Quingli

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2024CH17      Eur.Phys.J. A 60, (2024)

Y.Chen, Y.Qiu, Q.Li, Sh.Tang, Y.Yang, Zh.Ren, W.Jiang, R.Fan, H.Yi, R.Liu, J.Tang, H.Jing, Ch.Lan, Y.Li, Zh.Tan, Q.An, J.Bai, J.Bao, Y.Bao, P.Cao, H.Chen, Q.Chen, Zh.Chen, Z.Cui, Ch.Feng, K.Gao, X.Gao, M.Gu, Ch.Han, Z.Han, G.He, Y.He, Y.Hong, Y.Hu, H.Huang, X.Huang, H.Jiang, Zh.Jiang, L.Kang, B.Li, Ch.Li, J.Li, X.Li, J.Liu, Sh.Liu, X.Liu, Z.Long, G.Luan, Ch.Ning, M.Niu, B.Qi, J.Ren, X.Ruan, Zh.Song, K.Sun, Zh.Sun, X.Tang, B.Tian, L.Wang, P.Wang, Zh.Wang, Zh.Wen, X.Wu, X.Wu, L.Xie, X.Yang, L.Yu, T.Yu, Y.Yu, G.Zhang, L.Zhang, Q.Zhang, X.Zhang, Y.Zhang, Zh.Zhang, L.Zhou, Zh.Zhou, K.Zhu

Measurement of the neutron flux of CSNS Back-n ES#1 under small collimators from 0.5 eV to 300 MeV

NUCLEAR REACTIONS 235U(n, F), 6Li(n, X), E=0.0000005-300 MeV; measured reaction products, En, In, TOF; deduced σ, neutron flux and uncertainties. China Spallation Neutron Source (CSNS).

doi: 10.1140/epja/s10050-024-01272-z
Citations: PlumX Metrics


2024GU05      Eur.Phys.J. A 60, 36 (2024)

D.Guo, X.He, P.Li, Zh.Qin, Ch.Hu, B.Wang, Y.Zhou, K.Zheng, Y.Zhang, X.Wei, H.Yang, D.Hu, M.Shao, L.Duan, Y.Yu, Zh.Sun, Y.Wang, Q.Li, Zh.Xiao

Studies of nuclear equation of state with the HIRFL-CSR external-target experiment

doi: 10.1140/epja/s10050-024-01245-2
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2024LI11      Phys.Rev. C 109, 024604 (2024)

Zh.Li, Z.Gao, L.Liu, Y.Wang, L.Zhu, Q.Li

Importance of physical information on the prediction of heavy-ion fusion cross sections with machine learning

doi: 10.1103/PhysRevC.109.024604
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2024LI15      Appl.Radiat.Isot. 207, 111274 (2024)

B.Liu, G.Tian, R.Han, F.Shi, H.Sun, Z.Chen, Z.Zhang, Q.Li, P.Luo

Excitation functions for fast neutron induced reactions on iron and lead

NUCLEAR REACTIONS 54Fe(n, p), (n, α), 56Fe(n, p), 204Pb(n, 2n), E=13.6 MeV; measured reaction products, Eγ, Iγ; deduced σ. Comparison with CENDL-3.2, ENDF/B-VIII.0, JENDL-5, BROND-3.1 and JEFF-3.3 libraries, TALYS-1.96 and EMPIRE-3.2.3 code calculations. The K-400 neutron generator at the China Academy of Engineering Physics.

doi: 10.1016/j.apradiso.2024.111274
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2024TI01      Appl.Radiat.Isot. 204, 111150 (2024)

G.Tian, B.Liu, Z.Chen, F.Shi, R.Han, H.Sun, Z.Zhang, Q.Li, P.Luo

Fast neutron induced reaction cross sections on natural manganese and tantalum

NUCLEAR REACTIONS 55Mn(n, 2n), E=14 MeV; 181Ta(n, 2n), E=13.6 MeV; 181Ta(n, p), E=13.6 MeV; measured reaction products, Eγ, Iγ; deduced σ. Comparison with NDF/B-VIII.0, JEFF-3.3, JENDL-5, CENDL-3.2, and BROND-3.1 libraries. TALYS calculations. Institute of Nuclear Physics and Chemistry, China Academy of Engineering Physics using the K-400 Intense Neutron Generator.

doi: 10.1016/j.apradiso.2023.111150
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2023AN14      Sci. Rep. 13, 12657 (2023)

Z.An, W.Qiu, W.Jiang, G.Yang, X.Li, Z.Liao, Z.Zhuang, X.Zhang, S.Chen, C.Guo, E.Xiao, X.Fang, X.Li, H.Wang, X.Hu, Bi.Jiang, W.Shen, J.Wang, J.Ren, X.Ruan, D.Wang, S.-Y.Zhang, W.Luo, Z.Zhu, H.Lan, Z.Cao, X.Ma, Y.Liu, P.Wang, Y.Yang, P.Su, X.Deng, W.He, Y.Ma, C.Ma, Y.Wang, P.He, R.Tang, T.Zhou, J.Wang, H.Yi, Y.Zhang, Y.Chen, R.Fan, K.Gao, Q.Li, K.Sun, Z.Tan, M.Gu, H.Jing, J.Tang

Measurement of the 181Ta(n, γ) cross sections up to stellar s-process temperatures at the CSNS Back-n

NUCLEAR REACTIONS 181Ta(n, γ), E=0.001-800 keV; measured reaction products, En, In, TOF; deduced σ, resonance parameters using the R-Matrix code SAMMY, Maxwellian average cross sections (MACS). Comparison with available data. The back-streaming white neutron facility (Back-n) of China spallation neutron source (CSNS).

doi: 10.1038/s41598-023-39603-7
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2023GU14      Appl.Radiat.Isot. 200, 110948 (2023), Erratum Appl.Radiat.Isot. 201, 111029 (2023)

H.Guo, Q.Li, C.Zhang, L.Jiang, X.Ruan

Measurement of the 134Xe(n, 2n)133m, gXe and 136Xe(n, 2n)135m, gXe reaction cross-sections and isomeric ratios induced by the 14.8 MeV neutrons

NUCLEAR REACTIONS 134,136Xe(n, 2n), E=14.8 MeV; measured reaction products, Eγ, Iγ; deduced σ for ground and isomeric states. Comparison with available data. The 300 kV Cockcroft Walton Accelerator of China Institute of Atomic Energy.

doi: 10.1016/j.apradiso.2023.110948
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2023HA40      Commun. Phys. 6, 220 (2023)

J.Han, Y.Ye, J.Lou, X.Yang, Q.Li, Z.Yang, Y.Yang, J.Wang, J.Xu, Y.Ge, H.Hua, Z.Li, B.Yang, Y.Liu, S.Bai, K.Ma, J.Chen, G.Li, Z.Hu, H.Yu, Z.Tan, L.Yang, S.Wang, L.Tao, W.Liu, Y.Jiang, J.Li, D.Wang, S.Huang, Y.Chen, W.L.Pu, K.Wei, J.Ma, H.Yang, P.Ma, S.Xu, Z.Bai, S.Jin, F.Duan, Y.Song, L.Hu, Y.Li, J.Li, S.Zhang, M.Huang, D.Wang, Z.Li

Nuclear linear-chain structure arises in carbon-14

RADIOACTIVITY 14C(α) [from 1H(14C, 14C'), E=23 MeV/nucleon]; measured decay products, Eα, Iα. 14C; deduced Q-value, excitation energy spectra, resonant states in 14C, J, π, widths, σ(θ). Comparison with the antisymmetrized molecular dynamics (AMD) calculations. The Radioactive Ion Beam Line at the Heavy Ion Research Facility in Lanzhou (HIRFL-RIBLL1).

doi: 10.1038/s42005-023-01342-6
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2023LI40      Phys.Rev. C 108, 024002 (2023)

Q.Li, S.Lyu, C.Ji, B.Long

Effective field theory with resonant P-wave interaction

NUCLEAR STRUCTURE 6He; calculated binding energy. Effective field theory with momentum-dependent nonlocal potential for shallow P-wave resonances applied to neutron-α and neutron-neutron-α systems.

doi: 10.1103/PhysRevC.108.024002
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2023WA35      Eur.Phys.J. A 59, 224 (2023)

J.Wang, J.Ren, W.Jiang, X.Ruan, Q.Sun, J.Hu, B.Jiang, J.Bao, Q.Zhang, G.Luan, H.Huang, Y.Nie, Z.Ge, Q.An, H.Bai, J.Bai, P.Cao, Q.Chen, Y.Chen, Z.Chen, Z.Cui, A.Fan, R.Fan, C.Feng, F.Feng, K.Gao, M.Gu, C.Han, Z.Han, G.He, Y.He, Y.Hong, Y.Hu, W.Jia, H.Jiang, Z.Jiang, Z.Jin, L.Kang, B.Li, C.Li, G.Li, J.Li, Q.Li, Y.Li, J.Liu, R.Liu, S.Liu, C.Ning, B.Qi, Z.Ren, Z.Song, K.Sun, Z.Tan, J.Tang, S.Tang, L.Wang, P.Wang, Z.Wang, Z.Wen, X.Wu, X.Wu, L.Xie, Y.Yang, H.Yi, Y.Yu, G.Zhang, L.Zhang, M.Zhang, X.Zhang, Y.Zhang, Y.Zhang, Z.Zhang, M.Zhao, L.Zhou, K.Zhu, J.Zhang

Determination of the 232Th(n, γ) cross section from 10 to 200 keV at the Back-n facility at CSNS

NUCLEAR REACTIONS 232Th, 197Au(n, γ), E=10-200 keV; measured reaction products, En, In, Eγ, Iγ; deduced σ. Comparison with ENDF/B-VIII.0, CENDL-3.2, JENDL-5 libraries and TALYS 1.96 calculations. The back-streaming white neutron beam-line (Back-n) of China Spallation Neutron Source (CSNS).

doi: 10.1140/epja/s10050-023-01126-0
Citations: PlumX Metrics


2022LI35      Appl.Radiat.Isot. 186, 110260 (2022)

Q.Li, L.Jiang, C.Zhang, X.Ruan, Z.Ge

Measurement of the 59Co(n, 2n)58Co reaction cross section induced by 14.8 MeV neutrons

NUCLEAR REACTIONS 59Co(n, 2n), 27Al(n, α), 93Nb(n, 2n), E=14.8 MeV; measured reaction products, Eγ, Iγ; deduced relative σ. Comparison with EXFOR data, ENDF/B-VIII.0, JEFF-3.3, JENDL-4.0, CENDL-3.1 evaluated libraries. The 300 kV Cockcroft Walton Accelerator of China Institute of Atomic Energy.

doi: 10.1016/j.apradiso.2022.110260
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2021FA05      Appl.Radiat.Isot. 172, 109669 (2021)

Y.Fan, Q.Li, Y.Wang, Y.Zhao, X.Zhang, H.Jia, Y.Chang, S.Liu, X.Ai, S.Wang

Assessment of a compton-suppressed spectrometer for measurement of radioactive xenon isotopes

RADIOACTIVITY 133Xe(β-), 127Xe(EC); measured decay products, Eγ, Iγ; deduced γ-ray energies and relative intensities.

doi: 10.1016/j.apradiso.2021.109669
Citations: PlumX Metrics


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
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2021LI35      Eur.Phys.J. A 57, 232 (2021); Erratum Eur.Phys.J. A 57, 252 (2021)

X.Liu, Y.Yang, R.Liu, Z.Wen, J.Wen, Z.Han, Y.Chen, H.Jing, H.Yi, J.Bao, Z.Ren, Q.An, H.Bai, P.Cao, Q.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, 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, 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 neutron total cross sections of aluminum at the back-n white neutron source of CSNS

NUCLEAR REACTIONS 27Al(n, X), E<20 MeV; measured reaction products, En, In; deduced neutron transmission, total σ and uncertainties. Comparison withENDF/B-VIII.0, JEFF-3.3 and CENDL-3.2 library evaluations, EXFOR compilations. Spallation Neutron Source Science Center.

doi: 10.1140/epja/s10050-021-00513-9
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2021LI50      Phys.Rev. C 104, 034608 (2021)

F.Li, Y.Wang, Z.Gao, P.Li, H.Lu, Q.Li, C.Y.Tsang, M.B.Tsang

Application of machine learning in the determination of impact parameter in the 132Sn + 124Sn system

NUCLEAR REACTIONS 124Sn(132Sn, X), E=270 MeV/nucleon; analyzed experimental data for charged-particle spectra or other simulated events from RIBF-RIKEN facility to extract impact parameters using the ultrarelativistic quantum molecular dynamics (UrQMD) model, and three machine learning algorithms of artificial neural network (ANN), convolutional neural network (CNN), and light gradient boosting machine (LightGBM).

doi: 10.1103/PhysRevC.104.034608
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2021LI54      J.Radioanal.Nucl.Chem. 330, 325 (2021)

Q.Li, S.Wang, Y.Zhao, Y.Fan, X.Zhang, R.Zhang, H.Jia, Z.Zeng

Geant4 simulation of detection efficiency and self-attenuation effect of β particles for radioxenon measurement using β-γ coincidence equipment

RADIOACTIVITY 131,133Xe(IT), 133,135Xe(β-); calculated β-particles efficiencies, βγ-coin. using Geant4.

doi: 10.1007/s10967-021-07962-y
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2021RE01      Nucl.Instrum.Methods Phys.Res. A985, 164703 (2021)

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

Background study for (n, γ) cross section measurements with C6D6 detectors at CSNS Back-n

NUCLEAR REACTIONS 197Au, Pb, C, 181Ta, 59Co(n, γ), E<400 MeV; measured reaction products, Eγ, Iγ; deduced σ.

doi: 10.1016/j.nima.2020.164703
Citations: PlumX Metrics


2020BA03      Chin.Phys.C 44, 014003 (2020)

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

Measurement of the differential cross sections and angle-integrated cross sections of the 6Li(n, t)4He reaction from 1.0 eV to 3.0 MeV at the CSNS Back-n white neutron source

NUCLEAR REACTIONS 6Li(n, t), E=0.000001-3 MeV; measured reaction products; deduced σ. Comparison with ENDF/B-VIII.0 and JEFF-3.3 libraries, experimental data.

doi: 10.1088/1674-1137/44/1/014003
Citations: PlumX Metrics

Data from this article have been entered in the EXFOR database. For more information, access X4 dataset32800.


2020JI06      Nucl.Instrum.Methods Phys.Res. A973, 164126 (2020)

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

Application of a silicon detector array in (n, lcp) reaction cross-section measurements at the CSNS Back-n white neutron source

NUCLEAR REACTIONS 6Li(n, t), 10B(n, α), E<1 MeV; measured reaction products, En, In; deduced σ. Comparison with experimental data, ENDF/B-VIII.0, JEFF-3.3, ROSFOND evaluated libraries.

doi: 10.1016/j.nima.2020.164126
Citations: PlumX Metrics


2020LI33      Nucl.Instrum.Methods Phys.Res. A980, 164506 (2020)

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

Neutron and γ background measurements of the experimental halls at the CSNS back-streaming white neutron source

doi: 10.1016/j.nima.2020.164506
Citations: PlumX Metrics


2020LI37      J.Phys.(London) G47, 115104 (2020)

F.Li, Y.Wang, H.Lu, P.Li, Q.Li, F.Liu

Application of artificial intelligence in the determination of impact parameter in heavy-ion collisions at intermediate energies

NUCLEAR REACTIONS 197Au(197Au, X), E=1 GeV/nucleon; analyzed available data; calculated true impact parameter versus the predicted impact parameter, rapidity distribution of protons.

doi: 10.1088/1361-6471/abb1f9
Citations: PlumX Metrics


2020LI52      J.Phys.(London) G47, 035108 (2020)

P.Li, Y.Wang, Q.Li, J.Wang, H.Zhang

Effects of impact parameter filters on observables in heavy-ion collisions at INDRA energies

NUCLEAR REACTIONS 120Sn(129Xe, X), E<150 MeV/nucleon; analyzed available data; calculated nuclear stopping power, elliptic flow; deduced difference in elliptic flow at mid-rapidity among different centrality filters steadily decreases with increasing beam energy and impact parameter. The ultra-relativistic quantummolecular dynamics (UrQMD) model.

doi: 10.1088/1361-6471/ab6627
Citations: PlumX Metrics


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
Citations: PlumX Metrics

Data from this article have been entered in the EXFOR database. For more information, access X4 dataset32811.


2020TO06      Chin.Phys.C 44, 074101 (2020)

L.Tong, P.Li, F.Li, Y.Wang, Q.Li, F.Liu

Nucleon effective mass splitting and density-dependent symmetry energy effects on elliptic flow in heavy ion collisions at Elab=0.09 ∼ 1.5 GeV/nucleon

NUCLEAR REACTIONS 197Au(197Au, X), E = 0.09-1.5 GeV/nucleon; analyzed available data; deduced effects of the neutron-proton effective mass splitting, density-dependent nuclear symmetry energy by incorporating an isospin-depenent form of the momentum-dependent potential in the ultra-relativistic quantum molecular dynamics model.

doi: 10.1088/1674-1137/44/7/074103
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2020WE04      Ann.Nucl.Energy 140, 107301 (2020)

J.Wen, Y.Yang, Z.Wen, R.Liu, X.Liu, Z.Han, Q.Chen, Z.Ren, 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 U-238/U-235 fission cross section ratio at CSNS - Back-in WNS

NUCLEAR REACTIONS 235,238U(n, F), E=1-20 MeV; measured reaction products, fission fragments, Eγ, Iγ; deduced neutron resonances, σ. Comparison with ENDF/B-VIII.0 library evaluations.

doi: 10.1016/j.anucene.2019.107301
Citations: PlumX Metrics

Data from this article have been entered in the EXFOR database. For more information, access X4 dataset32798.


2020YA28      J.Phys.(London) G47, 035104 (2020)

Y.Yang, Q.Li

A analysis of 16O+α+α cluster model of 24Mg from elastic electron scattering

NUCLEAR REACTIONS 24Mg(e-, e-), E not given; analyzed available data. 16O, 4He; deduced 16+α+α cluster structure, prolate deformation and intrinsic quadrupole moments. PWBA and DWBA approaches.

doi: 10.1088/1361-6471/ab5f4f
Citations: PlumX Metrics


2020YE01      Phys.Rev. C 101, 034915 (2020)

Y.Ye, Y.Wang, Q.Li, D.Lu, F.Wang

Beam energy dependence of cumulants of the net-baryon, net-charge, and deuteron multiplicity distributions i Au + Au collisions at√ sNN = 3.0 - 5.0 GeV

doi: 10.1103/PhysRevC.101.034915
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2019CH37      Eur.Phys.J. A 55, 115 (2019), Erratum Eur.Phys.J. A 55, 145 (2019)

Y.Chen, G.Luan, J.Bao, H.Jing, L.Zhang, Q.An, H.Bai, P.Cao, Q.Chen, P.Cheng, Z.Cui, R.Fan, C.Feng, M.Gu, F.Guo, Ch.Han, Z.Han, G.He, Y.He, Y.He, H.Huang, W.Huang, X.Huang, X.Ji, X.Ji, H.Jiang, W.Jiang, L.Kang, M.Kang, B.Li, L.Li, Q.Li, X.Li, Y.Li, Y.Li, R.Liu, S.Liu, X.Liu, 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, J.Wen, Z.Wen, Q.Wu, X.Wu, X.Wu, L.Xie, Y.Yang, H.Yi, L.Yu, T.Yu, Y.Yu, G.Zhang, J.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

Neutron energy spectrum measurement of the Back-n white neutron source at CSNS

doi: 10.1140/epja/i2019-12808-1
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2019JI07      Chin.Phys.C 43, 124002 (2019)

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

Measurements of differential and angle-integrated cross sections for the 10B(n, α)7Li reaction in the neutron energy range from 1.0 eV to 2.5 MeV

NUCLEAR REACTIONS 10B(n, α), E=0.000001-2.5 MeV; measured reaction products, Eα, Iα; deduced σ(θ), σ and uncertainties. Comparison with ENDF/B-VIII.0, JEFF-3.3, CENDL-3.1 and JENDL 4.0 libraries.

doi: 10.1088/1674-1137/43/12/124002
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset32804.


2019LI11      Appl.Radiat.Isot. 146, 29 (2019)

Q.Li, S.Wang, Y.Fan, Y.Zhao, H.Jia, X.Zhang, S.Liu

Measurement of the gamma-ray emission probability of 131mXe

RADIOACTIVITY 131mXe(IT)[from 131I decay]; measured Eγ, Iγ; deduced γ-ray emission probability. Comparison with ENSDF and DDEP evaluated data.

doi: 10.1016/j.apradiso.2019.01.010
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Data from this article have been entered in the XUNDL database. For more information, click here.


2019SU15      Phys.Rev. C 99, 064607 (2019)

Y.Sun, Y.Wang, Q.Li, F.Wang

Effect of internal magnetic field on collective flow in heavy ion collisions at intermediate energies

doi: 10.1103/PhysRevC.99.064607
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2018LI15      Phys.Rev. C 97, 034602 (2018)

Y.Liu, Y.Wang, Q.Li, L.Liu

Collective flows of pions in Au+Au collisions at energies 1.0 and 1.5 GeV/nucleon

doi: 10.1103/PhysRevC.97.034602
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2018LI23      Phys.Rev. C 97, 044620 (2018)

P.Li, Y.Wang, Q.Li, C.Guo, H.Zhang

Effects of the in-medium nucleon-nucleon cross section on collective flow and nuclear stopping in heavy-ion collisions in the Fermi-energy domain

NUCLEAR REACTIONS 197Au(197Au, X)E=40-150 MeV/nucleon; calculated directed and elliptic flows of free protons at midrapidity and at the nuclear stopping, yield distributions of free protons as functions of reduced longitudinal and transverse rapidities. Ultrarelativistic quantum molecular dynamics (UrQMD) calculations with medium correction factors and FU3FPI parametrization. Comparison with FOPI and INDRA experimental results.

doi: 10.1103/PhysRevC.97.044620
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2018SU03      Phys.Rev. C 97, 044904 (2018)

Y.Sun, Q.Li, F.Wang

Elliptic flow from Coulomb interaction and low density elastic scattering

doi: 10.1103/PhysRevC.97.044904
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2018YE05      Phys.Rev. C 98, 054620 (2018)

Y.Ye, Y.Wang, J.Steinheimer, Y.Nara, H.-j.Xu, P.Li, D.Lu, Q.Li, H.Stoecker

Cumulants of the baryon number from central Au+Au collision at Elab = 1.23GeV/nucleon reveal the nuclear mean-field potentials

NUCLEAR REACTIONS 197Au(197Au, X), E=1.23 GeV/nucleon; calculated yield distributions of all baryons as functions of the reduced longitudinal and transverse rapidities, rapidity and time dependence for the cumulants and their ratios of free baryons, clustered baryons, and free protons using the Ultrarelativistic quantum molecular dynamics (UrQMD) and the JAM model, with soft momentum dependent (SM), the hard momentum-dependent (HM), and the hard without momentum-dependent (H) mean-field potentials. Relevance to experiments of HADES Collaboration at GSI, and STAR Collaboration at BNL.

doi: 10.1103/PhysRevC.98.054620
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2017ED01      Nucl.Phys. A966, 124 (2017)

T.Edmonds, Q.Li, F.Wang

Collisional broadening of angular correlations in a multiphase transport model

doi: 10.1016/j.nuclphysa.2017.06.036
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2017LI34      Phys.Lett. B 773, 557 (2017)

Q.Li, Z.Li

The isospin dependent nucleon-nucleon inelastic cross section in the nuclear medium

NUCLEAR REACTIONS 1H(p, n), (n, p), 1NN(n, n), (n, p), E ∼ 1 GeV; calculated energy-, density-, and isospin-dependent nucleon-nucleon (NN) inelastic σ using the RBUU microscopic transport theory.

doi: 10.1016/j.physletb.2017.09.013
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2017OZ01      Phys.Rev. C 96, 045805 (2017)

N.Ozkan, R.T.Guray, C.Yalcin, W.P.Tan, A.Aprahamian, M.Beard, R.J.deBoer, S.Almaraz-Calderon, S.Falahat, J.Gorres, Q.Li, A.Sauerwein, K.Sonnabend, M.Wiescher, Zs.Fulop, Gy.Gyurky, E.Somorjai, J.Greene

Proton capture reaction cross section measurements on 162Er as a probe of statistical model calculations

NUCLEAR REACTIONS 162Er(p, γ)163Tm, 162Er(p, n)162Tm, E=4.0-9.0 MeV in steps of 0.5 MeV; measured reaction products, Eγ, Iγ, σ(E) by activation method using the FN tandem accelerator at the University of Notre Dame; deduced S factors. Comparison with Hauser Feshbach (HF) statistical model calculations using NON-SMOKER and TALYS codes.

doi: 10.1103/PhysRevC.96.045805
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2276.


2016LI09      Eur.Phys.J. A 52, 35 (2016)

L.Liu, C.Shen, Q.Li, Y.Tu, X.Wang, Y.Wang

Residue cross sections of 50Ti-induced fusion reactions based on the two-step model

NUCLEAR REACTIONS 241,243Am, 243,244,245,246,247,248Cm, 247,249Bk, 249,251Cf, 252,254Es(50Ti, xn), E*=20-55 MeV; calculated residue σ for elements with Z=117-121 using two-step model with fusion splitted into approaching and formation phases; the decay is treated within statistical model.

doi: 10.1140/epja/i2016-16035-0
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2016LI29      Phys.Rev. C 93, 055806 (2016)

Q.Li, J.Gorres, R.J.deBoer, G.Imbriani, A.Best, A.Kontos, P.J.LeBlanc, E.Uberseder, M.Wiescher

Cross section measurement of 14N(p, γ)15O in the CNO cycle

NUCLEAR REACTIONS 14N(p, γ)15O, E=0.7-3.6 MeV; measured Eγ, Iγ, γ(θ), differential σ(E) for ground-state and 6.79 MeV transitions using the 1MV JN and 4 MV KN Van de Graaff accelerators at the University of Notre Dame. TiN and implanted 14N targets. 15O; deduced levels, resonances, J, π, astrophysical S factors. Multichannel R-matrix analysis. Relevance to CNO cycle in stars.

doi: 10.1103/PhysRevC.93.055806
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Data from this article have been entered in the XUNDL database. For more information, click here.


2016LI47      Nucl.Phys. A956, 107 (2016)

Q.Li, D.E.Kharzeev

Chiral magnetic effect in condensed matter systems

doi: 10.1016/j.nuclphysa.2016.03.055
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2016WA18      Phys.Rev. C 94, 024608 (2016)

Y.Wang, C.Guo, Q.Li, Z.Li, J.Su, H.Zhang

Influence of differential elastic nucleon-nucleon cross section on stopping and collective flow in heavy-ion collisions at intermediate energies

NUCLEAR REACTIONS 1H(p, p), (n, n), E=150, 250, 400, 800 MeV; calculated normalized NN differential cross sections versus the cosine of the center-of-mass scattering angle, and compared with experimental data at ≈400 MeV. 197Au(197Au, X), E=150, 250, 400, 800 MeV/nucleon; calculated longitudinal and transverse rapidity distributions, directed and elliptic flows of free protons using three nucleon-nucleon (NN) elastic differential cross sections: parameterized differential cross section, differential cross section from the collision term of the self-consistent relativistic Boltzmann-Uehling-Uhlenbeck equation, and the isotropic differential cross section within the new version of the ultrarelativistic quantum molecular dynamics (UrQMD) model.

doi: 10.1103/PhysRevC.94.024608
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2016ZH30      Phys.Rev. C 94, 024601 (2016)

K.Zhao, Zh.Li, Y.Zhang, N.Wang, Q.Li, C.Shen, Y.Wang, X.Wu

Production of unknown neutron-rich isotopes in 238U + 238U collisions at near-barrier energy

NUCLEAR REACTIONS 238U(238U, X), E=7.0 MeV/nucleon; calculated production cross sections for primary and residual fragments with charge number from Z=70 to 120, N=100-200 neutron-rich nuclides, average excitation energies of primary fragments of unknown isotopes of uranium; predicted about 60 unknown neutron-rich nuclides from Z=88 to 105 with production cross sections above the lower bound of 10-8 mb. Improved quantum molecular dynamics (ImQMD) model with the statistical evaporation model using HIVAP code.

doi: 10.1103/PhysRevC.94.024601
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2015GU07      Phys.Rev. C 91, 054615 (2015)

C.Guo, Y.Wang, Q.Li, Pe.Wen, F.-S.Zhang

Mass-splitting effect on flows in heavy-ion collisions in the Fermi-energy domain

NUCLEAR REACTIONS 197Au(197Au, X), E=100 MeV/nucleon; calculated time evolution of neutron and proton densities, rapidity distributions and transverse momentum of neutrons and protons, and effect of neutron-proton effective mass splitting (NPEMS) on flows in heavy-ion collisions at the Fermi-energy domain for directed and elliptic flows. Ultrarelativistic quantum molecular dynamics (UrQMD) model.

doi: 10.1103/PhysRevC.91.054615
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2015HU09      Eur.Phys.J. A 51, 159 (2015)

Y.Hu, J.Zeng, Q.Li, F.Zhou, D.Zhou, W.Xiang

On the analytic proton structure function with heavy quarks

doi: 10.1140/epja/i2015-15159-y
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2015NA14      Phys.Rev. C 92, 025804 (2015)

F.Naqvi, S.J.Quinn, A.Spyrou, A.Battaglia, M.Couder, P.A.DeYoung, A.C.Dombos, X.Fang, J.Gorres, A.Kontos, Q.Li, S.Lyons, D.Robertson, A.Simon, K.Smith, M.K.Smith, E.Stech, W.P.Tan, M.Wiescher

Proton capture cross section of 72Ge and astrophysical implications

NUCLEAR REACTIONS 72,74Ge(p, γ), E=1.8-3.6 MeV; measured Eγ, Iγ, σ(E) using γ-summing detector SuN at Notre Dame Tandem Van de Graff accelerator facility. Natural Ge target. Comparison with calculations using TALYS1.6 code and different combinations of optical model potentials (OMPs), nuclear level densities (NLDs), and γ-ray strength functions, and with data in standard astrophysical libraries BRUSLIB and REACLIB. Relevance to astrophysical p-process.

doi: 10.1103/PhysRevC.92.025804
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2183.


2015QU01      Phys.Rev. C 92, 045805 (2015)

S.J.Quinn, A.Spyrou, A.Simon, A.Battaglia, M.Bowers, B.Bucher, C.Casarella, M.Couder, P.A.DeYoung, A.C.Dombos, J.Gorres, A.Kontos, Q.Li, A.Long, M.Moran, N.Paul, J.Pereira, D.Robertson, K.Smith, M.K.Smith, E.Stech, R.Talwar, W.P.Tan, M.Wiescher

(α, γ) cross section measurements in the region of light p nuclei

NUCLEAR REACTIONS 74Ge, 90,92Zr(α, γ), E=9.5-12 MeV; measured Eγ, Iγ, σ(E) using the SuN detector and gamma-summing technique at Notre Dame Tandem Van de Graaff accelerator; deduced stellar reaction rates for 90Zr(α, γ) reaction. Nucleosynthesis of light p-process nuclei. Comparison with statistical model calculations using TALYS and NON-SMOKER codes.

doi: 10.1103/PhysRevC.92.045805
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2196.


2015WA10      Eur.Phys.J. A 51, 37 (2015)

Y.Wang, C.Guo, Q.Li, H.Zhang

3H/3He ratio as a probe of the nuclear symmetry energy at sub-saturation densities

NUCLEAR REACTIONS 40Ca(40Ca, t), (40Ca, 3He), 90Zr(90Zr, t), (90Zr(3He), 96Ru(96Ru, t), (96Ru), 3He), 197Au(197Au, t), (197Au, 3He), E=0.12-1 GeV/nucleon; calculated 3H to 3He ratio using UrQMG (ultrarelativistic QMD) with different Skyrme forces; deduced symmetry energy using FOPI data.

doi: 10.1140/epja/i2015-15037-8
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2015YA02      J.Phys.(London) G42, 15101 (2015)

Y.Yang, X.Zhang, Q.Li

20Ne+20Ne elastic scattering in the α + 16O model of 20Ne

NUCLEAR REACTIONS 20Ne(20Ne, 20Ne), E=62.1-74.5 MeV; analyzed available data; deduced a folding potential using α + 16O model, σ.

doi: 10.1088/0954-3899/42/1/015101
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2015ZH26      Phys.Rev. C 92, 024613 (2015)

K.Zhao, Z.Li, N.Wang, Y.Zhang, Q.Li, Y.Wang, X.Wu

Production mechanism of neutron-rich transuranium nuclei in 238U + 238U collisions at near-barrier energies

NUCLEAR REACTIONS 238U(238U, X), E=7.0 MeV/nucleon; calculated isotopic production cross sections and most probable mass numbers of primary fragments and residual fragments with Z=78-106, A=180-280, 214Rn, 249,254,255,256Cf. Production of the light uranium-like and transuranium fragments. Improved quantum molecular dynamics (ImQMD) model incorporated with the statistical evaporation model using HIVAP code. Comparison with experimental data.

doi: 10.1103/PhysRevC.92.024613
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2014GU18      Phys.Rev. C 90, 034606 (2014)

C.Guo, Y.Wang, Q.Li, F.-S.Zhang

Effect of the spin-orbit interaction on flows in heavy-ion collisions at intermediate energies

doi: 10.1103/PhysRevC.90.034606
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2014QU01      Phys.Rev. C 89, 054611 (2014)

S.J.Quinn, A.Spyrou, E.Bravo, T.Rauscher, A.Simon, A.Battaglia, M.Bowers, B.Bucher, C.Casarella, M.Couder, P.A.DeYoung, A.C.Dombos, J.Gorres, A.Kontos, Q.Li, A.Long, M.Moran, N.Paul, J.Pereira, D.Robertson, K.Smith, M.K.Smith, E.Stech, R.Talwar, W.P.Tan, M.Wiescher

Measurement of the 58Ni(α, γ)62Zn reaction and its astrophysical impact

NUCLEAR REACTIONS 58Ni(α, γ)62Zn, E=5.5-9.5 MeV; measured Eγ, Iγ, σ(E) using Summing NaI(Tl) (SuN) detector at NSL-Notre Dame facility; deduced astrophysical reaction rates. Comparison with predictions from statistical Hauser-Feshbach model using SMARAGD code. Discussed Astrophysical implications and elemental abundances.

doi: 10.1103/PhysRevC.89.054611
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2116.


2014QU04      Nucl.Instrum.Methods Phys.Res. A 757, 62 (2014)

S.J.Quinn, A.Spyrou, A.Simon, A.Battaglia, M.Bowers, B.Bucher, C.Casarella, M.Couder, P.A.Deyoung, A.C.Dombos, J.P.Greene, J.Gorres, A.Kontos, Q.Li, A.Long, M.Moran, N.Paul, J.Pereira, D.Robertson, K.Smith, M.K.Smith, E.Stech, R.Talwar, W.P.Tan, M.Wiescher

First application of the technique in inverse kinematics

NUCLEAR REACTIONS 1H(27Al, γ), 1H(58Ni, γ), 27Al(p, γ), 58Ni(p, γ), E=956 keV-1.5 GeV; measured products, Eγ, Iγ; deduced resonance parameters. Data were imported from EXFOR entry C2123.

doi: 10.1016/j.nima.2014.05.020
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2123.


2014RU02      Eur.Phys.J. A 50, 38 (2014)

P.Russotto, M.D.Cozma, A.Le Fevre, Y.Leifels, R.Lemmon, Q.Li, J.Lukasik, W.Trautmann

Flow probe of symmetry energy in relativistic heavy-ion reactions

doi: 10.1140/epja/i2014-14038-5
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2014WA06      Phys.Rev. C 89, 034606 (2014)

Y.Wang, C.Guo, Q.Li, H.Zhang, Z.Li, W.Trautmann

Collective flow of light particles in Au + Au collisions at intermediate energies

doi: 10.1103/PhysRevC.89.034606
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2014WA13      Phys.Rev. C 89, 044603 (2014)

Y.Wang, C.Guo, Q.Li, H.Zhang, Y.Leifels, W.Trautmann

Constraining the high-density nuclear symmetry energy with the transverse-momentum-dependent elliptic flow

doi: 10.1103/PhysRevC.89.044603
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2013BE11      Phys.Rev. C 87, 045805 (2013)

A.Best, M.Beard, J.Gorres, M.Couder, R.deBoer, S.Falahat, R.T.Guray, A.Kontos, K.-L.Kratz, P.J.LeBlanc, Q.Li, S.O'Brien, N.Ozkan, M.Pignatari, K.Sonnabend, R.Talwar, W.Tan, E.Uberseder, M.Wiescher

Measurement of the reaction 17O(α, n)20Ne and its impact on the s process in massive stars

NUCLEAR REACTIONS 17O(α, n), E=800-2300 keV; measured Eγ, Iγ, E(n), I(n), yields as function of incident Eα for (α, n0) and (α, n1) channels; deduced R-matrix parameters, S factors, reaction rates. 21Ne; deduced levels, resonances, J, π, width, resonance strengths. R-matrix analyses. 17O(α, n), (α, γ), E at 0.1 to 10 GK; comparison of experimental and theoretical (NACRE, CF88/1000) reaction rates. Hauser-Feshbach theory. Astrophysical implications for the s-process, and elemental abundance.

doi: 10.1103/PhysRevC.87.045805
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2007. Data from this article have been entered in the XUNDL database. For more information, click here.


2013BE12      Phys.Rev. C 87, 045806 (2013)

A.Best, S.Falahat, J.Gorres, M.Couder, R.deBoer, R.T.Guray, A.Kontos, K.-L.Kratz, P.J.LeBlanc, Q.Li, S.O'Brien, N.Ozkan, K.Sonnabend, R.Talwar, E.Uberseder, M.Wiescher

Measurement of the reaction 18O(α, n)21Ne

NUCLEAR REACTIONS 18O(α, n), E=851-2300 keV; measured Eγ, Iγ, E(n), I(n), yields as function of incident Eα for (α, n0) and (α, n1) channels; deduced R-matrix parameters, S factors, reaction rates. 22Ne; deduced levels, resonances, J, π, width, resonance strengths. R-matrix analyses. 18O(α, n), (α, γ), E at 0.1 to 10 GK; comparison of experimental and theoretical (NACRE, CF88) reaction rates. Hauser-Feshbach theory.

doi: 10.1103/PhysRevC.87.045806
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2009. Data from this article have been entered in the XUNDL database. For more information, click here.


2013CO24      Phys.Rev. C 88, 044912 (2013)

M.D.Cozma, Y.Leifels, W.Trautmann, Q.Li, P.Russotto

Toward a model-independent constraint of the high-density dependence of the symmetry energy

doi: 10.1103/PhysRevC.88.044912
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2013GA46      Phys.Rev. C 88, 057601 (2013)

Y.Gao, G.C.Yong, Y.Wang, Q.Li, W.Zuo

Influence of the symmetry energy on the cone-azimuthal emission

doi: 10.1103/PhysRevC.88.057601
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2013LI11      Nucl.Instrum.Methods Phys.Res. A705, 117 (2013)

Q.Li, S.Wang, H.Jia, Y.Fan, X.Zhang, Z.Chen, Y.Zhao, Y.Chang, S.Liu

Determination of the emission probability of the principal gamma ray of 135Xe

NUCLEAR REACTIONS 134Xe(n, X)135Xe, 136Xe(n, X)135Xe, E thermal; measured reaction products, Eβ, Iβ, Eγ, Iγ; deduced γ-emission probability. Comparison with available data.

doi: 10.1016/j.nima.2012.12.082
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Data from this article have been entered in the XUNDL database. For more information, click here.


2013QU01      Phys.Rev. C 88, 011603 (2013)

S.J.Quinn, A.Spyrou, A.Simon, A.Battaglia, M.Couder, P.A.DeYoung, A.C.Dombos, X.Fang, J.Gorres, A.Kontos, Q.Li, S.Lyons, B.S.Meyer, G.F.Peaslee, D.Robertson, K.Smith, M.K.Smith, E.Stech, W.P.Tan, X.D.Tang, M.Wiescher

Probing the production mechanism of the light p-process nuclei

NUCLEAR REACTIONS 74Ge(p, γ)75As, E=1.6-4.2 MeV; measured Eγ, Iγ, σ(E) using the NSCL SuN detector at Notre Dame facility; deduced astrophysical S(E) factors, reaction rates at T9=0.10-10.0, cumulative mass fraction of 74Se in a Type II Supernova model. Comparison with previous experimental data, and with theoretical predictions using NON-SMOKER and TALYS nuclear reaction codes.

doi: 10.1103/PhysRevC.88.011603
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2046.


2013SI11      Phys.Rev. C 87, 055802 (2013)

A.Simon, A.Spyrou, T.Rauscher, C.Frohlich, S.J.Quinn, A.Battaglia, A.Best, B.Bucher, M.Couder, P.A.DeYoung, X.Fang, J.Gorres, A.Kontos, Q.Li, L.-Y.Lin, A.Long, S.Lyons, A.Roberts, D.Robertson, K.Smith, M.K.Smith, E.Stech, B.Stefanek, W.P.Tan, X.D.Tang, M.Wiescher

Systematic study of (p, γ) reactions on Ni isotopes

NUCLEAR REACTIONS 58,60,61,62,64Ni(p, γ), E=2.0-6.0 MeV; measured Eγ, Iγ, σ(E) using the NSCL-SuN gamma detector utilizing γ-summing technique at Notre Dame; deduced sensitivity of the reaction σ(E) with variation of γ- and particle width. Comparison with theoretical predictions from NON-SMOKER and SMARAGD computer code calculations, and with previous experimental data. Predicted astrophysical reaction rates on all stable nickel isotopes including that for 56Ni(p, γ)57Cu.

doi: 10.1103/PhysRevC.87.055802
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2026.


2013SI35      Nucl.Instrum.Methods Phys.Res. A 703, 16 (2013)

A.Simon, S.J.Quinn, A.Spyrou, A.Battaglia, I.Beskin, A.Best, B.Bucher, M.Couder, P.A.Deyoung, X.Fang, J.Gorres, A.Kontos, Q.Li, S.N.Liddick, A.Long, S.Lyons, K.Padmanabhan, J.Peace, A.Roberts, D.Robertson, K.Smith, M.K.Smith, E.Stech, B.Stefanek, W.P.Tan, X.D.Tang, M.Wiescher

SuN: Summing NaI(Tl) gamma-ray detector for capture reaction measurements

NUCLEAR REACTIONS 27Al(p, γ), E=2.3-3.9 MeV; measured products, Eγ, Iγ; deduced resonance parameters. Data were imported from EXFOR entry C1967.

doi: 10.1016/j.nima.2012.11.045
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1967.


2013SP04      Phys.Rev. C 88, 045802 (2013)

A.Spyrou, S.J.Quinn, A.Simon, T.Rauscher, A.Battaglia, A.Best, B.Bucher, M.Couder, P.A.DeYoung, A.C.Dombos, X.Fang, J.Gorres, A.Kontos, Q.Li, L.Y.Lin, A.Long, S.Lyons, B.S.Meyer, A.Roberts, D.Robertson, K.Smith, M.K.Smith, E.Stech, B.Stefanek, W.P.Tan, X.D.Tang, M.Wiescher

Measurement of the 90, 92Zr(p, γ)91, 93Nb reactions for the nucleosynthesis of elements near A=90

NUCLEAR REACTIONS 90,92Zr(p, γ)91Nb/93Nb, E=2.0-5.0 MeV; measured Eγ, Iγ, σ(E) using NSCL SuN detector at Notre Dame accelerator facility; deduced astrophysical S factors, reaction rates, sensitivity of reaction to widths in Hauser-Feshbach model. Comparison with standard NON-SMOKER model, and two TALYS calculations. Relevance to synthesis and abundances of light p nuclei.

doi: 10.1103/PhysRevC.88.045802
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2013XI08      Appl.Radiat.Isot. 80, 56 (2013)

F.Xie, W.Jiang, X.He, X.Li, Z.Cheng, S.Wang, Q.Li, Q.L.Shi, Y.Chang

Measurement of absolute gamma-ray emission probabilities from decay of 138Xe

RADIOACTIVITY 138Xe(β-); measured decay products, Eγ, Iγ; deduced emission probabilities and their uncertainties. Comparison with available data.

doi: 10.1016/j.apradiso.2013.06.006
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2012GR08      Phys.Rev. C 85, 044901 (2012)

G.Graf, M.Bleicher, Q.Li

Examination of scaling of Hanbury-Brown-Twiss radii with charged particle multiplicity

doi: 10.1103/PhysRevC.85.044901
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2012HE16      Chin.Phys.C 36, 954 (2012)

P.-B.He, Q.Li, X.-G.Liu, F.Ye, Z.-Y.Dai

Experimental measurement of the correlation between CT number and heavy ion range

doi: 10.1088/1674-1137/36/10/006
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2012JI04      Int.J.Mod.Phys. E21, 1250002 (2012)

Z.Jiang, Y.Sun, Q.Li

The energy and centrality dependences of the pseudorapidity distributions of the charged particles in Au+Au collisions

doi: 10.1142/S0218301312500024
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2012KO41      Phys.Rev. C 86, 055801 (2012); Erratum Phys.Rev. C 88, 029905 (2013)

A.Kontos, J.Gorres, A.Best, M.Couder, R.deBoer, G.Imbriani, Q.Li, D.Robertson, D.Schurmann, E.Stech, E.Uberseder, M.Wiescher

Proton capture on 17O and its astrophysical implications

NUCLEAR REACTIONS 17O(p, γ)18F, E(cm)=345-1700 keV, measured Eγ, Iγ, γ(θ), excitation functions, σ(E). 18F; deduced levels, proton resonances, J, π, γ-branching ratios, resonance strengths, ANC, spectroscopic factors, proton, alpha and gamma widths, astrophysical reaction rates and S factors. R-matrix analysis. Comparison with literature values. Relevance to hydrogen-burning nucleosynthesis.

doi: 10.1103/PhysRevC.86.055801
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2012LI18      Phys.Rev. C 85, 034908 (2012)

Q.Li, G.Graf, M.Bleicher

Ultrarelativistic quantum molecular dynamics calculations of two-pion Hanbury-Brown-Twiss correlations in central Pb-Pb collisions at √ sNN = 2.76 TeV

doi: 10.1103/PhysRevC.85.034908
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2012WA21      Appl.Radiat.Isot. 70, 1927 (2012)

S.-l.Wang, T.Bai, Q.Li, Z.-y.Chen, Q.-l.Shi, X.-s.Li, X.-l.Zhang, F.Xie, Y.-f.Chang

Half-life determination of 88Kr and 138Xe

RADIOACTIVITY 88Kr, 138Xe(β-); measured decay products, Eγ, Iγ; deduced T1/2 and their uncertainties. Comparison with available data.

doi: 10.1016/j.apradiso.2012.02.054
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2011BE17      Phys.Rev. C 83, 052802 (2011)

A.Best, J.Gorres, M.Couder, R.deBoer, S.Falahat, A.Kontos, P.J.LeBlanc, Q.Li, S.O'Brien, K.Sonnabend, R.Talwar, E.Uberseder, M.Wiescher

First direct measurement of resonance strengths in 17O(α, γ)21Ne

NUCLEAR REACTIONS 17O(α, γ), E=750-1650 keV; measured Eγ, Iγ. 21Ne; deduced resonances, resonance strengths, levels, J, π, γ-branching ratios. Implications for neutron poisoning efficiency of 16O in the weak s-process. Comparison with previous experimental data, Caughlan-Fowler reaction rates, and calculated rates based on a microscopic three-cluster model of Descouvemont.

doi: 10.1103/PhysRevC.83.052802
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2011LI11      Phys.Rev. C 83, 044617 (2011)

Q.Li, C.Shen, C.Guo, Y.Wang, Z.Li, J.Lukasik, W.Trautmann

Nonequilibrium dynamics in heavy-ion collisions at low energies available at the GSI Schwerionen Synchrotron

doi: 10.1103/PhysRevC.83.044617
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2011SH19      Phys.Rev. C 83, 054620 (2011)

C.Shen, D.Boilley, Q.Li, J.Shen, Y.Abe

Fusion hindrance in reactions with very heavy ions: Border between normal and hindered fusion

NUCLEAR REACTIONS 208Pb(86Kr, X), 110Pd(110Pd, X), 100Mo(100Mo, X), 90Zr(90Zr, X), E not given; calculated LDM potential, fusion hindrance. Two-center liquid drop model.

doi: 10.1103/PhysRevC.83.054620
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2011YA10      Phys.Rev. C 84, 014602 (2011)

Y.Yang, Q.Li

Elastic 16O+20Ne scattering from a folding model analysis

NUCLEAR REACTIONS 16O(20Ne, 20Ne), E(cm)=24.5-35.5 MeV; calculated σ(E, θ); deduced renormalization factors and model parameters. The α-folding potential calculations with WS, and WS+WSD imaginary potentials. Effect of the surface term in the imaginary potential. Comparison with experimental data.

doi: 10.1103/PhysRevC.84.014602
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2010YE09      Nucl.Phys. A834, 454c (2010)

Y.Ye, Z.Cao, D.Jiang, T.Zheng, H.Hua, Y.Ge, X.Li, J.Lou, J.Xiao, Q.Li, L.Lv, R.Qiao, H.You, R.Chen, H.Sakurai, H.Otsu, Z.Li, M.Nishimura, S.Sakaguchi, H.Baba, Y.Togano, K.Yoneda, C.Li, S.Wang, H.Wang, K.Li, H.Xu, Z.Hu, J.Wang, L.Duan, X.Zhang, R.Chen, Z.Guo, Z.Sun, X.Lei, Z.Xu, T.Nakamura, Y.Nakayama, Y.Kondo, S.Deguchi, Y.Satou, K.H.Tshoo

Probing the Structure of Unstable Nuclei Through the Recoiled Proton Tagged Knockout Reaction

NUCLEAR REACTIONS 1H, C(8He, X), E=82.5 MeV/nucleon; 1H, C(6He, X), E=65 MeV/nucleon; measured Ep, Ip(θ), E(fragment), I(fragment)(θ), Eα, Iα(θ), pα-coin, p(fragment)-coin, angular correlations; deduced reaction mechanism features. Secondary radioactive beams.

doi: 10.1016/j.nuclphysa.2010.01.062
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2010YU01      Phys.Rev. C 81, 034913 (2010), Erratum Phys.Rev. C 81, 069901 (2010)

Y.Yuan, Q.Li, Z.Li, F.-H.Liu

Transport model study of nuclear stopping in heavy-ion collisions over the energy range from 0.09A to 160A GeV

doi: 10.1103/PhysRevC.81.034913
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2009LI02      J.Phys.(London) G36, 015111 (2009)

Q.Li, M.Bleicher

A model comparison of resonance lifetime modifications, a soft equation of state and non-Gaussian effects on π-π correlations at FAIR/AGS energies

doi: 10.1088/0954-3899/36/1/015111
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2006LI04      J.Phys.(London) G32, 151 (2006)

Q.Li, Z.Li, S.Soff, M.Bleicher, H.Stocker

Probing the equation of state with pions

NUCLEAR REACTIONS 197Au(197Au, X), E=0.4-1.5 GeV/nucleon; calculated pion multiplicities, rapidity distributions, yield ratios, sensitivity to equation of state.

doi: 10.1088/0954-3899/32/2/007
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2006LI08      J.Phys.(London) G32, 407 (2006)

Q.Li, Z.Li, S.Soff, M.Bleicher, H.Stocker

Medium modifications of the nucleon-nucleon elastic cross section in neutron-rich intermediate energy HICs

NUCLEAR REACTIONS 96Zr(96Zr, X), (78Ni, X), E=100 MeV/nucleon; calculated neutron and proton rapidity and transverse flow distributions, correlation functions; deduced medium effects.

doi: 10.1088/0954-3899/32/4/001
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2006LI22      Phys.Rev. C 73, 051601 (2006)

Q.Li, Z.Li, H.Stocker

Probing the symmetry energy and the degree of isospin equilibrium

NUCLEAR REACTIONS 96Ru, 96Zr(96Ru, X), (96Zr, X), E=100-800 MeV/nucleon; calculated neutron-to-proton yield ratio vs rapidity, related features; deduced sensitivity to symmetry energy.

doi: 10.1103/PhysRevC.73.051601
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2006LI27      Phys.Rev. C 73, 064908 (2006)

Q.Li, M.Bleicher, H.Stocker

Transport model analysis of particle correlations in relativistic heavy ion collisions at femtometer scales

NUCLEAR REACTIONS 197Au(197Au, X), E(cm)=30, 62.4, 130, 200 GeV/nucleon; 1H(p, X), Cu(Cu, X), E(cm)=200 GeV/nucleon; calculated particle-source radii, transverse momentum and centrality dependence.

doi: 10.1103/PhysRevC.73.064908
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2006LI35      J.Phys.(London) G32, 1143 (2006)

W.Li, N.Wang, F.Jia, H.Xu, W.Zuo, Q.Li, E.Zhao, J.Li, W.Scheid

Particle transfer and fusion cross-section for super-heavy nuclei in dinuclear system

NUCLEAR REACTIONS 208Pb(70Zn, X), E* ≈ 10 MeV; calculated fusion probability, angular momentum dependence, related features. Other compound nuclei discussed.

doi: 10.1088/0954-3899/32/8/006
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2006MA61      Phys.Rev. C 74, 034603 (2006)

M.Manhas, R.K.Gupta, Q.Li, S.K.Patra, W.Greiner

Higher-multipole deformations and compactness of hot fusion reactions

NUCLEAR REACTIONS 226Ra(54Ti, X), (60Cr, X), 184W, 238U, 244Pu(48Ca, X), 198Os(92Kr, X), 232Th(60Cr, X), E not given; calculated fusion barrier energies, effects of high-multipole deformations.

doi: 10.1103/PhysRevC.74.034603
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2006PE34      Phys.Rev.C 74, 064908 (2006)

H.Petersen, Q.Li, X.Zhu, M.Bleicher

Directed and elliptic flow in heavy-ion collisions from Ebeam = 90 MeV/nucleon to Ec.m. = 200 GeV/nucleon

NUCLEAR REACTIONS Pb(Pb, X), E=20-160 MeV/nucleon; analyzed protons and pions directed and elliptic flow, related features.

doi: 10.1103/PhysRevC.74.064908
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2005LI16      Eur.Phys.J. A 24, 223 (2005)

Q.Li, W.Zuo, W.Li, N.Wang, E.Zhao, J.Li, W.Scheid

Deformation and orientation effects in the driving potential of the dinuclear model

NUCLEAR REACTIONS 244Es(28Na, X), 198Hg(74Zn, X), 208Pb(64Ni, X), E not given; calculated Coulomb and nuclear driving potentials, deformation and orientation effects.

doi: 10.1140/epja/i2004-10138-1
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2005LI21      Phys.Rev. C 71, 054907 (2005)

Q.Li, Z.Li, E.Zhao, R.K.Gupta

Σ-+ ratio as a candidate for probing the density dependence of the symmetry potential at high nuclear densities

NUCLEAR REACTIONS 132Sn(132Sn, X), E=1.5, 2.5, 3.5 GeV/nucleon; calculated pion and hyperon yield ratios, role of symmetry potential. Ultrarelativistic quantum molecular dynamics model.

doi: 10.1103/PhysRevC.71.054907
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2005LI43      Phys.Rev. C 72, 034613 (2005)

Q.Li, Z.Li, S.Soff, M.Bleicher, H.Stocker

Probing the density dependence of the symmetry potential at low and high densities

NUCLEAR REACTIONS 208Pb(208Pb, X), 124Sn(132Sn, X), 96Zr(96Zr, X), E=0.4 GeV/nucleon; calculated pion yields and rapidity distributions, light charged particle isotopic yields, density dependent features. Several symmetry potentials compared.

doi: 10.1103/PhysRevC.72.034613
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2005LI45      J.Phys.(London) G31, 1359 (2005)

Q.Li, Z.Li, S.Soff, R.K.Gupta, M.Bleicher, H.Stocker

Probing the density dependence of the symmetry potential in intermediate-energy heavy ion collisions

NUCLEAR REACTIONS 132Sn(132Sn, X), E=0.5 GeV/nucleon; calculated charged pion and Δ yields, rapidity and transverse momentum distributions, effects of density-dependent symmetry potential. Ultrarelativistic quantum molecular dynamics model.

doi: 10.1088/0954-3899/31/11/016
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2004LI10      Phys.Rev. C 69, 017601 (2004)

Q.Li, Z.Li, E.Zhao

Density and temperature dependence of nucleon-nucleon elastic cross section

doi: 10.1103/PhysRevC.69.017601
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2004LI73      Nucl.Phys. A746, 288c (2004)

Q.Li, A.Kitagawa, M.Kanazawa, E.Urakabe, T.Kanai, T.Tomitani, S.Sato, Z.Wei

The production of 9C beam in the secondary beam line of the HIMAC facility and its potential application in cancer therapy

NUCLEAR REACTIONS Be(12C, X)9C, E=430 MeV/nucleon; measured production rate, momentum distribution. Medical application discussed.

doi: 10.1016/j.nuclphysa.2004.09.025
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2001LI62      Phys.Rev. C64, 064612 (2001)

Q.Li, Z.Li

Probing Equilibration with Respect to Isospin Degree of Freedom in Intermediate Energy Heavy Ion Collisions

NUCLEAR REACTIONS 96Ru, 96Zr(96Ru, X), (96Zr, X), E=100, 400 MeV/nucleon; calculated neutron-proton differential rapidity distributions, fragment mass and charge distributions; deduced non-equilibrium features. Isospin-dependent quantum molecular dynamics.

doi: 10.1103/PhysRevC.64.064612
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2001ZH01      Appl.Radiat.Isot. 54, 89 (2001)

X.Zhang, Q.Li, W.Li, R.Sheng, S.Sen

Production of No-Carrier-Added 186Re via Deuteron Induced Reactions on Isotopically Enriched 186W

NUCLEAR REACTIONS 186W(d, 2n), (d, p), (d, nα), E=16 MeV; measured thick-target yields.

doi: 10.1016/S0969-8043(00)00268-2
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2000LI20      Phys.Rev. C62, 014606 (2000)

Q.Li, Z.Li, G.Mao

Isospin Dependence of Nucleon-Nucleon Elastic Cross Section

NUCLEAR REACTIONS 1n, 1H(n, n), (p, p), E(cm) ≈ 1.9-2.2 GeV; calculated free, in-medium σ; deduced in-medium isospin dependence.

doi: 10.1103/PhysRevC.62.014606
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1999LI50      Nucl.Phys. A661, 583c (1999)

Q.Li, Y.Pang, N.Xu

Origin of Collectivity in Heavy Ion Collisions

doi: 10.1016/S0375-9474(99)85093-3
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1999MO28      Phys.Rev. C60, 031901 (1999)

B.Monreal, S.A.Bass, M.Bleicher, S.Esumi, W.Greiner, Q.Li, H.Liu, W.J.Llope, R.Mattiello, S.Panitkin, I.Sakrejda, R.Snellings, H.Sorge, C.Spieles, H.Stocker, J.Thomas, S.Voloshin, F.Wang, N.Xu

Deuterons and Space-Momentum Correlations in High Energy Nuclear Collisions

NUCLEAR REACTIONS 197Au(197Au, X), E(cm)=200 GeV/nucleon; calculated pion, kaon, nucleon, deuteron transverse momenta; deduced rescattering effects. Microscopic transport model.

doi: 10.1103/PhysRevC.60.031901
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1997BA16      Phys.Rev. C55, 1420 (1997); Erratum Phys.Rev. C56, 2336 (1997)

J.Barrette, R.Bellwied, S.Bennett, P.Braun-Munzinger, W.C.Chang, W.E.Cleland, M.Clemen, J.Cole, T.M.Cormier, G.David, J.Dee, O.Dietzsch, M.Drigert, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, Y.Kwon, R.Lacasse, A.Lukaszew, Q.Li, T.W.Ludlam, S.K.Mark, R.Matheus, S.McCorkle, J.T.Murgatroyd, E.O'Brien, S.Panitkin, T.Piazza, C.Pruneau, M.N.Rao, M.Rosati, N.C.da Silva, S.Sedykh, U.Sonnadara, J.Stachel, E.M.Takagui, S.Voloshin, G.Wang, J.P.Wessels, C.L.Woody, N.Xu, Y.Zhang, C.Zou, and the E877 Collaboration

Energy and Charged Particle Flow in 10.8A GeV/c Au + Au Collisions

NUCLEAR REACTIONS 197Au(197Au, X), E=10.8 GeV/c/nucleon; measured azimuthal distributions of transverse energy, charged particle multiplicity, Fourier components, sideward flow, squeeze-out, relativistic collisions; deduced nucleon, pion flow. Experiment E877 at BNL AGS.

doi: 10.1103/PhysRevC.55.1420
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1997BA30      Phys.Rev.Lett. 78, 2916 (1997)

J.Barrette, R.Bellwied, S.Bennett, R.Bersch, P.Braun-Munzinger, W.C.Chang, W.E.Cleland, J.D.Cole, T.M.Cormier, G.David, J.Dee, O.Dietzsch, M.W.Drigert, S.Gilbert, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, C.L.Jiang, S.C.Johnson, Y.Kwon, R.Lacasse, A.Lukaszew, Q.Li, T.W.Ludlam, S.McCorkle, S.K.Mark, R.Matheus, D.Miskowiec, E.O'Brien, S.Panitkin, T.Piazza, M.Pollack, C.Pruneau, M.N.Rao, M.Rosati, N.C.daSilva, S.Sedykh, U.Sonnadara, J.Stachel, E.M.Takagui, M.Trzaska, S.Voloshin, T.Vongpaseuth, G.Wang, J.P.Wessels, C.L.Woody, N.Xu, Y.Zhang, C.Zou, and the E877 Collaboration

Two-Pion Correlations in Au + Au Collisions at 10.8 GeV/c per Nucleon

NUCLEAR REACTIONS 197Au(197Au, X), E at 10.8 GeV/c/nucleon; measured π+π±-, π-π--, π+π--correlation functions; deduced pions phase space density related features.

doi: 10.1103/PhysRevLett.78.2916
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1995BA39      Phys.Rev. C51, 3309 (1995)

J.Barrette, R.Bellwied, S.Bennett, P.Braun-Munzinger, W.E.Cleland, M.Clemen, J.D.Cole, T.M.Cormier, G.David, J.Dee, O.Dietzsch, M.W.Drigert, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, Y.Kwon, R.Lacasse, A.Lukaszew, Q.Li, T.W.Ludlam, S.K.Mark, S.McCorkle, R.Matheus, J.T.Murgatroyd, E.O'Brien, S.Panitkin, T.Piazza, C.Pruneau, M.N.Rao, M.Rosati, N.C.daSilva, S.Sedykh, U.Sonnadara, J.Stachel, N.Starinsky, E.M.Takagui, S.Voloshin, G.Wang, J.P.Wessels, C.L.Woody, N.Xu, Y.Zhang, C.Zou, and the E877 Collaboration

Charged-Particle Pseudorapidity Distributions in Au + Al, Cu, Au, and U Collisions at 10.8A GeV/c

NUCLEAR REACTIONS 27Al, Cu, 197Au, U(197Au, X), E at 10.8 GeV/c/nucleon; measured charged particle pseudorapidity distributions as a function of centrality; deduced total energy per charged particle as a function of pseudorapidity and centrality. Compared with FRITIOF and RQMD predictions.

doi: 10.1103/PhysRevC.51.3309
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