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NSR database version of March 21, 2024.

Search: Author = X.Wang

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2024BE03      Nucl.Phys. A1043, 122821 (2024)

R.Belmont, J.Brewer, Q.Brodsky, P.Caucal, M.Connors, M.Djordjevic, R.Ehlers, M.A.Escobedo, E.G.Ferreiro, G.Giacalone, Y.Hatta, J.Holguin, W.Ke, Zh.-B.Kang, A.Kumar, A.Mazeliauskas, Y.Mehtar-Tani, G.Nukazuka, D.Pablos, D.V.Perepelitsa, K.Rajagopal, A.M.Sickles, M.Strickland, K.Tywoniuk, I.Vitev, X.-N.Wang, Zh.Yang, F.Zhao

Predictions for the sPHENIX physics program

doi: 10.1016/j.nuclphysa.2024.122821
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2024SU04      Chin.Phys.C 48, 034002 (2024)

M.Z.Sun, Y.Yu, X.P.Wang, M.Wang, J.G.Li, Y.H.Zhang, K.Blaum, Z.Y.Chen, R.J.Chen, H.Y.Deng, C.Y.Fu, W.W.Ge, W.J.Huang, H.Y.Jiao, H.H.Li, H.F.Li, Y.F.Luo, T.Liao, Yu.A.Litvinov, M.Si, P.Shuai, J.Y.Shi, Q.Wang, Y.M.Xing, X.Xu, H.S.Xu, F.R.Xu, Q.Yuan, T.Yamaguchi, X.L.Yan, J.C.Yang, Y.J.Yuan, X.H.Zhou, X.Zhou, M.Zhang, Q.Zeng

Ground-state mass of 22Al and test of state-of-the-art ab initio calculations

NUCLEAR STRUCTURE 22Al, 22F; calculated test of the state-of-the-art ab initio valence-space in-medium similarity renormalization group calculations with four sets of interactions derived from the chiral effective field theory using excitation energies and mirror energy differences.

doi: 10.1088/1674-1137/ad1a0a
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2024VA02      Phys.Rev.Lett. 132, 052701 (2024)

N.Vassh, X.Wang, M.Lariviere, T.Sprouse, M.R.Mumpower, R.Surman, Zh.Liu, G.C.McLaughlin, P.Denissenkov, F.Herwig

Thallium-208: A Beacon of In Situ Neutron Capture Nucleosynthesis

doi: 10.1103/PhysRevLett.132.052701
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2024WA04      Phys.Rev. C 109, 014624 (2024)

K.Wang, Y.Y.Yang, Jin Lei, A.M.Moro, V.Guimaraes, J.G.Li, F.F.Duan, Z.Y.Sun, G.Yang, D.Y.Pang, S.W.Xu, J.B.Ma, P.Ma, Z.Bai, Q.Liu, J.L.Lou, H.J.Ong, B.F.Lv, S.Guo, M.Kumar Raju, X.H.Wang, R.H.Li, X.X.Xu, Z.Z.Ren, Y.H.Zhang, X.H.Zhou, Z.G.Hu, H.S.Xu

Elastic scattering and breakup reactions of the mirror nuclei 12B and 12N on 208Pb using ab initio structure inputs

doi: 10.1103/PhysRevC.109.014624
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2024YA05      Chin.Phys.C 48, 034001 (2024)

G.Yang, F.-F.Duan, K.Wang, Y.-Y.Yang, Zh.-Y.Sun, V.Guimaraes, D.-Y.Pang, W.-D.Chen, L.Jin, Sh.-W.Xu, J.-B.Ma, P.Ma, Zh.Bai, L.-H.Wang, Q.Liu, H.-J.Ong, B.-F.Lv, S.Guo, M.K.Raju, X.-H.Wang, R.-H.Li, Y.-H.Zhang, X.-H.Zhou, Zh.-G.Hu, H.-Sh.Xu

Elastic scattering of 13C and 14C isotopes on a 208Pb target at energies of approximately five times the Coulomb barriers

NUCLEAR REACTIONS 208Pb(13C, 13C), E=340 MeV; 208Pb(14C, 14C), E=294, 342 MeV; measured reaction products; deduced σ(θ) within the optical model and continuum-discretized coupled-channels (CDCC) framework. Comparison with available data. The Heavy-Ion Research Facility in Lanzhou (HIRFL), the National Laboratory of Heavy Ion Research of the Institute of Modern Physics.

doi: 10.1088/1674-1137/ad1678
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2024YU04      Eur.Phys.J. A 60, 22 (2024)

X.Yu, L.Wu, L.Yu, X.Wang

Exploring the chiral and deconfinement phase transitions in a self-consistent PNJL model

doi: 10.1140/epja/s10050-024-01239-0
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2023CH25      Chin.Phys.C 47, 054103 (2023)

Y.-J.Chen, Y.Su, L.-L.Liu, G.Dong, Z.Ge, N.Shu, X.Wang

Microscopic study of neutron-induced fission process of 239Pu via zero- and finite-temperature density functional theory

NUCLEAR REACTIONS 239Pu(n, F), E<15 MeV; calculated potential energy surface (PES) using zero and finite-temperature density functional theory (FT-DFT) with the Skyrme force; deduced the variations of the least-energy fission path, fission barrier, total kinetic energy, scission line, and mass distribution of fission fragments with the incident neutron energy.

doi: 10.1088/1674-1137/acbe2c
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2023DO05      Phys.Rev. C 107, 044613 (2023)

G.X.Dong, X.B.Wang, N.Michel, M.Ploszajczak

Gamow shell model description of the radiative capture reaction 8B(p, γ)9C

NUCLEAR STRUCTURE 8B, 9C; calculated levels J, π, excited states widths, electric quadrupole and magnetic moments of the ground state, one-body density of valence protons in the ground state, rms proton radius. Gamow shell model (GSM) and Gamow shell model in the coupled-channel representation (GSM-CC) assuming 4He as the inert core. Comparison to experimental data.

NUCLEAR REACTIONS 8B(p, γ), E(cm)<3 MeV; calculated E1, M1 and E2 astrophysical S-factor, total astrophysical S-factor, reaction rate (T=0.1-1 GK). Gamow shell model in the coupled-channel representation (GSM-CC). Comparison to experimental data and other theoretical calculations.

doi: 10.1103/PhysRevC.107.044613
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2023HO13      Phys.Rev. C 108, 064901 (2023)

A.Holtermann, J.Noronha-Hostler, A.M.Sickles, X.Wang

Multiparticle correlations, cumulants, and moments sensitive to fluctuations in rare-probe azimuthal anisotropy in heavy ion collisions

doi: 10.1103/PhysRevC.108.064901
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2023LI49      Phys.Rev. C 108, L041602 (2023)

T.Li, H.Zhang, X.Wang

Theory of Coulomb excitation of the 229Th nucleus by protons

doi: 10.1103/PhysRevC.108.L041602
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2023LU04      Phys.Rev. C 108, 014302 (2023)

H.Y.Lu, Z.Liu, Z.H.Li, X.Wang, J.Li, H.Hua, H.Huang, W.Q.Zhang, Q.B.Zeng, X.H.Yu, T.H.Huang, M.D.Sun, J.G.Wang, X.Y.Liu, B.Ding, Z.G.Gan, L.Ma, H.B.Yang, Z.Y.Zhang, L.Yu, J.Jiang, K.L.Wang, Y.S.Wang, M.L.Liu, C.J.Lin, L.J.Sun, N.R.Ma, H.S.Xu, X.H.Zhou, G.Q.Xiao, F.S.Zhang

Reinvestigation of 222U in high-precision digital α-decay spectroscopy: Solution to the reduced decay-width anomaly

RADIOACTIVITY 222U(α) [from 186W(40Ar, 4n), E=80 MeV, followed by separation of fragments using SHANS separator at HRIFL-Lanzhou]; 218Th, 214Ra(α)[from 222U α decay chain]; measured Eα, Iα, evaporation residues (ER)-α correlations, T1/2 using DSSD detectors; deduced reduced α-decay width, and analyzed using NpNn scheme. 218Ac, 219Th, 220Pa(α); measured Eα, and T1/2. Systematics of reduced α-decay widths for g.s. to g.s. α transitions in even-even Z=84-92, N≥126 isotopes as function of NpNn. Comparison with previous experimental results.

doi: 10.1103/PhysRevC.108.014302
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2023QI04      Phys.Rev.Lett. 130, 112501 (2023)

J.Qi, H.Zhang, X.Wang

Isomeric Excitation of 229Th in Laser-Heated Clusters

NUCLEAR REACTIONS 229Th(γ, X)229mTh, E<1 keV; calculated total (E2 + M1) isomeric-excitation σ, production yields. Nuclear excitation by electron capture (NEEC) and nuclear excitation by inelastic electron scattering (NEIES).

doi: 10.1103/PhysRevLett.130.112501
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2023SH19      Phys.Rev.Lett. 131, 042304 (2023)

X.-L.Sheng, L.Oliva, Z.-T.Liang, Q.Wang, X.N.Wang

Spin Alignment of Vector Mesons in Heavy-Ion Collisions

doi: 10.1103/PhysRevLett.131.042304
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2023SI08      Phys.Rev. C 107, 054305 (2023)

J.Simpson, M.A.Riley, A.Pipidis, E.S.Paul, X.Wang, P.J.Nolan, J.F.Sharpey-Schafer, A.Aguilar, D.E.Appelbe, A.D.Ayangeakaa, A.J.Boston, H.C.Boston, D.B.Campbell, M.P.Carpenter, C.J.Chiara, P.T.W.Choy, R.M.Clark, M.Cromaz, A.O.Evans, P.Fallon, U.Garg, A.Gorgen, D.J.Hartley, R.V.F.Janssens, D.T.Joss, D.S.Judson, F.G.Kondev, T.Lauritsen, I.Y.Lee, A.O.Macchiavelli, J.T.Matta, J.Ollier, M.Petri, J.P.Revill, L.L.Riedinger, S.V.Rigby, C.Teal, P.J.Twin, C.Unsworth, D.Ward, S.Zhu, I.Ragnarsson

Evolution of structure and shapes in 158Er to ultrahigh spin

NUCLEAR REACTIONS 114Cd(48Ca, 4n)158Er, E=215 MeV; measured Eγ, Iγ, γγ-coin, γγ(θ). 158Er; deduced levels, J, π, high-spin states, angular intensity ratios, δ, B(M1/E2) ratios, nuclear shapes, alignments, rotational bands, configurations, band terminating states and feeding, transition quadrupole moments for triaxial strongly deformed bands, moment of inertia. Comparison with cranked Nilsson-Strutinski calculations. Systematics of triaxial strongly deformed bands in 158Er, 160Er, 152Dy, 163Lu. Gammasphere array of escape-suppressed HPGe detectors at 88-inch cyclotron-LBNL and ATLAS-ANL facilities.

doi: 10.1103/PhysRevC.107.054305
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2023WA09      Phys.Rev. C 107, 044906 (2023)

X.Wang, J.D.Brandenburg, L.Ruan, F.L.Shao, Z.Xu, C.Yang, W.Zha

Collision-energy dependence of the Breit-Wheeler process in heavy-ion collisions and its application to nuclear charge radius measurements

doi: 10.1103/PhysRevC.107.044906
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2023WA22      Chin.Phys.C 47, 084001 (2023)

C.-J.Wang, G.Guo, H.J.Ong, Y.-N.Song, B.-H.Sun, I.Tanihata, S.Terashima, X.-L.Wei, J.-Y.Xu, X.-D.Xu, J.-C.Zhang, Yo.Zheng, L.-H.Zhu, Y.Cao, G.-W.Fan, B.-S.Gao, J.-X.Han, G.-S.Li, C.-G.Lu, H.-T.Qi, Y.Qin, Z.-Y.Sun, L.-P.Wan, K.-L.Wang, S.-T.Wang, X.-X.Wang, M.-X.Zhang, W.-W.Zhang, X.-B.Zhang, X.-H.Zhang, Z.-C.Zhou

Charge-changing cross section measurements of 300 MeV/nucleon 28Si on carbon and data analysis

NUCLEAR REACTIONS C(28Si, X), E=304 MeV/nucleon; measured reaction products; deduced σ. Comparison with available data. The second Radioactive Ion Beam Line in Lanzhou (RIBLL2).

doi: 10.1088/1674-1137/acd366
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2023WA31      Phys.Rev. C 108, 034306 (2023)

X.B.Wang, Y.Chen, G.X.Dong, Y.Su, Z.Li, X.Z.Wu, Z.X.Li

Role of pairing correlations in the fission process

doi: 10.1103/PhysRevC.108.034306
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2023WA33      Phys.Rev. C 108, 034614 (2023)

X.-Y.Wang, C.Dong, Q.Wang

First characterization of the scattering length distribution of the vector meson interaction with the deuteron

doi: 10.1103/PhysRevC.108.034614
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2023WU07      Phys.Rev. C 108, 034911 (2023)

J.Wu, W.Ke, X.-N.Wang

Bayesian inference of the path-length dependence of jet energy loss

doi: 10.1103/PhysRevC.108.034911
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2023XI04      Appl.Radiat.Isot. 197, 110817 (2023)

Y.Xie, C.Cheng, W.Zhang, X.Wang, W.Qin, W.Liu, S.Lin, P.Xiao, Z.Wu, W.Jia

Feasibility study of on-line monitoring gadolinium based on neutron induced gamma activation

doi: 10.1016/j.apradiso.2023.110817
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2023XI07      Phys.Rev. C 108, L011901 (2023)

M.Xie, W.Ke, H.Zhang, X.-N.Wang

Information-field-based global Bayesian inference of the jet transport coefficient

doi: 10.1103/PhysRevC.108.L011901
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2023YA03      Phys.Rev.Lett. 130, 052301 (2023)

Z.Yang, T.Luo, W.Chen, L.Pang, X.-N.Wang

3D Structure of Jet-Induced Diffusion Wake in an Expanding Quark-Gluon Plasma

doi: 10.1103/PhysRevLett.130.052301
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2023YA10      Phys.Rev. C 107, 044603 (2023)

G.Yang, D.Y.Pang, Y.Y.Yang, K.Wang, F.F.Duan, X.X.Wang, Z.Y.Sun

Systematic single-folding model nucleus-nucleus potential for peripheral collisions

NUCLEAR REACTIONS 16O(9Be, 9Be), E=20-157.7 MeV;27Al(9Be, 9Be), E=12-158.2 MeV;28Si(9Be, 9Be), E=13-201.6 MeV;40Ca(9Be, 9Be), E=45-158.1 MeV;60Ni(9Be, 9Be), E=158.2 MeV;64Zn(9Be, 9Be), E=19-28.97 MeV;80Se(9Be, 9Be), E=20.94-32.76 MeV;120Sn(9Be, 9Be), E=25.96-49.96 MeV;144Sm(9Be, 9Be), E=30.0-48.0 MeV;197Au(9Be, 9Be), E=36.94-158.2 MeV;208Pb(9Be, 9Be), E=37.8-88.00 MeV;209Bi(9Be, 9Be), E=37.8-48.0 MeV; analyzed experimental data on elastic scattering angular distributions of 9Be on different targets; deduced systematic nucleus-nucleus potential. 16O, 26Mg, 27Al, 28Si, 40Ca, 60Ni, 64Zn, 80Se, 89Y, 120Sn, 144Sm, 197Au, 208Pb, 209Bi(9Be, 9Be), E=12-158.2 MeV; 28Si, 40Ca, 54,56Fe, 58,60Ni, 64Zn, 89Y, 90Zr, 116,118Sn, 144Sm, 208Pb, 209Bi, 238U(7Li, 7Li), E=16-240; 16O, 26Mg, 28Si, 40Ca, 56Fe, 62Ni, 70Ge(14N, 14N), E=28-76 MeV; 124Sn, 208Pb(17O, 17O), E=340 MeV; 58Ni(20Ne, 20Ne), E=291, 340 MeV; 27Al(15N, 15N), E=32.82, 47.91, 62.07 MeV; 208Pb(24Ne, 24Ne), E=189.6 MeV; 27Al, 28Si, 56Fe, 92Zr, 116Sn(16O, 16O), E=31-64 MeV; 56Fe, 58Ni, 64Zn, 112,118,120Sn(18O, 18O), E=46-60 MeV; 64Zn, 208Pb, (10Be, 10Be), E=28-43 MeV; 64Zn, 208Pb, 209Bi, 197Au(11B, 11B), E=55-84 MeV; 28Si(13C, 13C), E=25, 60 MeV;16O, 40Ca, 56Fe, 60Ni, 66Zn, 88Sr, 92,100Mo, 138Ba, (14C, 14C), E=51, 64, 71 MeV; 58Ni(17F, 17F), E=43.5, 55.6, 62, 97 MeV; 208Pb(19F, 19F), E=96 MeV; 58Ni(8B, 8B), E=20.68-29.26 MeV; 12C(8B, 8B), E=25.8 MeV; 9Be(7Li, 7Li), E=24, 30 MeV; 9Be(6Li, 6Li), E=11.67, 20.0 MeV; 12C(6Li, 6Li), E=12.3 MeV; 12C(9Be, 9Be), E=14 MeV; 208Pb(8B, 8B), E=170, 178, 238 MeV; 208Pb(9C, 9C), E=227 MeV; calculated σ(θ). 27Al, 28Si, 58Ni, 59Co, 208Pb, 209Bi(6Li, 6Li), 28Si, 59Co, 208Pb(7Li, 7Li), 58Ni(7Be, 7Be), 28Si, 144Sm(9Be, 9Be), E=8-58 MeV; 12C, 28Si, 40Ca, 58Ni, 90Zr, 208Pb(6Li, 6Li), E=35 MeV/nucleon; 12C, 27Al, 64Zn, 93Nb, 107Ag, 118Sn, 150,154Sm, 181Ta, 208Pb(20Ne, 20Ne), E=30 MeV/nucleon; 12C, 27Al, 51V, 54Fe, 107Ag, 118Sn, 208Pb(40Ar, 40Ar), E=44 MeV/nucleon; calculated total σ. Comparison to experimental data and calculation results performed with Sao Paulo potential of version 2. Analysis is performed by using a single-folding model based on the Bruyeres Jeukenne-Lejeune-Mahaux model nucleon-nucleus potentials.

doi: 10.1103/PhysRevC.107.044603
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2022BA15      Phys.Lett. B 829, 137064 (2022)

S.W.Bai, A.Koszorus, B.S.Hu, X.F.Yang, J.Billowes, C.L.Binnersley, M.L.Bissell, K.Blaum, P.Campbell, B.Cheal, T.E.Cocolios, R.P.de Groote, C.S.Devlin, K.T.Flanagan, R.F.Garcia Ruiz, H.Heylen, J.D.Holt, A.Kanellakopoulos, J.Kramer, V.Lagaki, B.Maass, S.Malbrunot-Ettenauer, T.Miyagi, R.Neugart, G.Neyens, W.Nortershauser, L.V.Rodriguez, F.Sommer, A.R.Vernon, S.J.Wang, X.B.Wang, S.G.Wilkins, Z.Y.Xu, C.X.Yuan

Electromagnetic moments of scandium isotopes and N=28 isotones in the distinctive 0f7/2 orbit

NUCLEAR MOMENTS 41,43,45,46,47,49Sc; measured frequencies; deduced hfs constants, electromagnetic dipole and quadrupole moments. Comparison with theoretical calculations. Two collinear laser spectroscopy (CLS) setups, COLLAPS and CRIS at ISOLDE-CERN.

doi: 10.1016/j.physletb.2022.137064
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2022BA32      Int.J.Mod.Phys. E31, 2250065 (2022)

H.F.Bai, S.Y.Wang, W.Z.Xu, L.H.Zhu, X.G.Wu, D.P.Sun, C.Liu, Z.Q.Li, H.Jia, B.Qi, G.S.Li, S.Wang, R.J.Guo, X.C.Han, X.Xiao, L.Mu, C.Y.He, Y.Zheng, X.D.Wang, L.Zhu, Y.J.Li, L.Liu

Shape coexistence and possible isomers in 117Sn

NUCLEAR REACTIONS 114Cd(7Li, 3np)117Sn, E=48 MeV; measured reaction products, Eγ, Iγ, γ-γ-coin.; deduced γ-ray energies, partial level scheme, J, π, DCO ratios, isomeric states. Comparison with systematics, the configuration-fixed constrained triaxial relativistic mean-field (RMF) calculations. The HI-13 tandem accelerator at China Institute of Atomic Energy in Beijing.

doi: 10.1142/S0218301322500653
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2022BO15      Rev.Mod.Phys. 94, 031003 (2022)

A.Boehnlein, M.Diefenthaler, N.Sato, M.Schram, V.Ziegler, C.Fanelli, M.Hjorth-Jensen, T.Horn, M.P.Kuchera, D.Lee, W.Nazarewicz, P.Ostroumov, K.Orginos, A.Poon, X.-N.Wang, A.Scheinker, M.S.Smith, L.-G.Pang

Colloquium: Machine learning in nuclear physics

doi: 10.1103/RevModPhys.94.031003
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2022CH15      Chin.Phys.C 46, 024103 (2022)

Y.-J.Chen, Y.Su, G.Dong, L.-L.Liu, Z.Ge, X.Wang

Energy density functional analysis of the fission properties of 240Pu: The effect of pairing correlations

NUCLEAR STRUCTURE 240Pu; calculated the potential energy surfaces up to the scission point using the density functional theory with different pairing strengths to investigate the effect of pairing correlations on its fission properties; deduced enhancement in the pairing correlations lowers the barrier heights, isomeric state, and ridge between the symmetric and asymmetric fission valleys significantly.

doi: 10.1088/1674-1137/ac347a
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2022DO05      Phys.Rev. C 105, 064608 (2022)

G.X.Dong, X.B.Wang, N.Michel, M.Ploszajczak

Gamow shell model description of the radiative capture reaction 8Li(n, γ)9Li

NUCLEAR REACTIONS 8Li(n, γ), E(cm)<1 MeV; calculated σ(E), E1, E2 and M1 neutron capture σ(E), astrophysical reaction rate for T=0.7-5.0 GK. Gamow shell model in the coupled-channel representation (GSM-CC). Estimated the contributions to the calculated σ from transitions of different mutipolarities. Discussed the role of the obtained σ for the production of heavier elements in nucleosynthesis. Comparison to available experimental data and other theoretical calculations.

NUCLEAR STRUCTURE 9Li; calculated levels, J, π, neutron spectroscopic factors. 8,9Li; calculated electric-quadrupole and magnetic moments of the ground state. Gamow shell model in the coupled-channel representation (GSM-CC). Comparison to experimental data.

doi: 10.1103/PhysRevC.105.064608
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2022HE15      Phys.Rev. C 106, 044904 (2022)

Y.He, W.Chen, T.Luo, S.Cao, L.-G.Pang, X.-N.Wang

Event-by-event jet anisotropy and hard-soft tomography of the quark-gluon plasma

doi: 10.1103/PhysRevC.106.044904
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2022LI68      Phys.Rev. C 106, 064604 (2022)

B.Liu, X.Wang

Isomeric excitation of 235U by inelastic scattering of low-energy electrons

NUCLEAR REACTIONS 235U(e, e'), E=0.0001-1000 MeV; calculated excitation σ(E) of 76.7 eV isomeric state in nuclear excitation by inelastic electron scattering (NEIES). Dirac distorted-wave Born approximation with comparison to Dirac plane-wave Born approximation. Relativistic effects are found to be rather important even with low electron energies.

doi: 10.1103/PhysRevC.106.064604
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2022LI72      Phys.Rev. C 106, 065804 (2022)

X.X.Li, L.X.Liu, W.Jiang, J.Ren, H.W.Wang, G.T.Fan, D.X.Wang, S.Y.Zhang, G.L.Yang, X.K.Li, Z.D.An, J.J.He, W.Luo, X.G.Cao, L.L.Song, Y.Zhang, X.R.Hu, Z.R.Hao, P.Kuang, B.Jiang, X.H.Wang, J.F.Hu, Y.D.Liu, C.W.Ma, Y.T.Wang, J.Su, L.Y.Zhang, Y.X.Yang, S.Feng, W.B.Liu, W.Q.Su, S.Jin, K.J.Chen

Experimental determination of the neutron resonance peak of 162Er at 67.8 eV

NUCLEAR REACTIONS 162Er(n, γ), E=20-100 eV; measured Eγ, Iγ; deduced neutron-capture yield, resonances, decay widths. Resonance parameters at 67.8 eV are extracted for the first time. R-matrix analysis. Comparison to other experimental results and ENDF/B-VIII.0 data. 4 C6D6 detectors. Neutron beam from Back-n Facility of the CSNS.

doi: 10.1103/PhysRevC.106.065804
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2022LU01      Phys.Rev. C 105, 024305 (2022)

D.W.Luo, C.Xu, Y.K.Wang, Z.H.Li, R.A.Bark, S.Q.Zhang, H.Hua, S.Y.Wang, J.Peng, X.Q.Li, H.Y.Wu, X.Wang, C.G.Wu, Q.T.Li, J.Lin, Y.Jin, W.Z.Xu, L.Mu, J.Meng, F.R.Xu, Y.L.Ye, D.X.Jiang, P.Jones, E.A.Lawrie, P.Papka, M.F.Nkalanga, T.D.Bucher, M.V.Chisapi, L.Msebi, S.Jongile, S.Ntshangase, B.R.Zikhali, S.H.Mthembu, T.Seakamela, M.A.Sithole, O.Shirihda, A.A.Aava, L.Mdletshe, K.L.Malatji, S.Mhlongo, L.Makhathini

Collective structures in 62Cu

NUCLEAR REACTIONS 54Cr(12C, 3np), E=67 MeV; measured Eγ, Iγ, γ(θ), γγ-coin. 62Cu; deduced levels, J, π, high-spin levels, B(M1)/B(E2), configurations, γγ(linear polarization). Comparison with calculations using the self-consistent tilted axis cranking covariant density functional theory (TAC-C DFT). Comparison with level structures in 60,64Ca. AFRODITE array at the iThemba LABS accelerator facility.

doi: 10.1103/PhysRevC.105.024305
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2022QI06      Phys.Rev. C 106, 034301 (2022)

Y.-T.Qiu, X.-W.Wang, J.-Y.Guo

Microscopic analysis of the ground state properties of the even-even Dy isotopes in the reflection-asymmetric relativistic mean-field theory

NUCLEAR STRUCTURE 146,148,150,152,154,156,158,160,162,164,166,168,170,172,174,176,178,180,182,184,186,188,190,192,194,196,198,200,202,204,206,208Dy; calculated binding energy per nucleon, β2 and β3 deformations as function of mass number, matter density distributions, and potential energy surfaces in (β2, β3) plane for the ground states of A=146-160 and A=188-202 even-even Dy nuclei. Reflection-asymmetric relativistic mean-field theory (RASRMF). Comparison with results from the finite-range droplet model (FRDM), and the deformed relativistic Hartree-Bogoliubov theory in continuum (DRHBc), and the available experimental data.

doi: 10.1103/PhysRevC.106.034301
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2022TO13      Phys.Lett. B 835, 137576 (2022)

W.Tornow, A.P.Tonchev, S.W.Finch, Krishichayan, X.B.Wang, A.C.Hayes, H.G.D.Yeomans, D.A.Newmark

Neutral-current neutrino cross section and expected supernova signals for 40Ar from a three-fold increase in the magnetic dipole strength

NUCLEAR REACTIONS 40Ar(γ, γ'), E=9.4-10.2 MeV; measured reaction products, Eγ, Iγ; calculated the neutral-current neutrino σ using shell model; deduced γ-ray energies, J, π, resonance parameters, B(M1), B(E1). The Nuclear Resonance Fluorescence (NRF) technique, the High-Intensity Gamma-Ray Source (HIγS) of the Triangle Universities Nuclear Laboratory (TUNL).

doi: 10.1016/j.physletb.2022.137576
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2022WA01      At.Data Nucl.Data Tables 143, 101466 (2022)

X.Wang, Z.Jiang, S.Kar, Y.K.Ho

The 1, 3P0 states of exponential cosine-screened heliumlike atoms

ATOMIC PHYSICS Z=3-10; calculated singly-excited and doubly-excited states of screened-heliumlike atoms under the influence of exponential cosine-screened (ECS) Coulomb potentials.

doi: 10.1016/j.adt.2021.101466
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2022WA08      Chin.Phys.C 46, 024107 (2022)

X.-Q.Wang, X.-X.Sun, S.-G.Zhou

Microscopic study of higher-order deformation effects on the ground states of superheavy nuclei around 270Hs

NUCLEAR STRUCTURE 264,266,268,270,272,274,276Hs, 266Rf, 268Sg, 272Ds; calculated binding energies, energy levels, J, π, deformation parameters using the deformation relativistic Hartree-Bogoliubov (DRHBc) theory.

doi: 10.1088/1674-1137/ac3904
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2022WA16      Phys.Rev. C 105, 054616 (2022)

K.Wang, Y.Y.Yang, V.Guimaraes, D.Y.Pang, F.F.Duan, Z.Y.Sun, J.Lei, G.Yang, S.W.Xu, J.B.Ma, Q.Liu, Z.Bai, H.J.Ong, B.F.Lv, S.Guo, X.H.Wang, R.H.Li, M.Kumar Raju, Z.G.Hu, H.S.Xu

Elastic scattering investigation of radioactive 13B and 13O projectiles on a 208Pb target at intermediate energies

NUCLEAR REACTIONS 208Pb(13B, 13B), E=254 MeV; 208Pb(13O, 13O), E=413 MeV; measured reaction products, time-of-flight, magnetic rigidity, angular distributions; deduced σ(θ). 13B, 13O; deduced proton, neutron and matter rms radii. Optical model analysis with Sao Paulo and Pang global potentials. Comparison to continuum discretized coupled channels (CDCC) calculations. Beams were produced by fragmentation of a primary 59.54 MeV/nucleon 16O beam delivered by the Heavy-Ion Research Facility in Lanzhou (HIRFL).

doi: 10.1103/PhysRevC.105.054616
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2022WA17      Phys.Rev. A 105, 05807 (2022)

X.Wang, X.Liu, Z.Xu, J.Ren, Y.Zhao, R.Cheng, Y.Lei, Y.Chen, Y.Liu, X.Zhou, X.Zhang

Experimental determination of atomic alignment of 42Mo, 48Cd, and 49In with differential x-ray intensity ratios by 100-250-keV proton impact

NUCLEAR REACTIONS Mo, Cd, In(p, X), E=100-250 keV; measured reaction products, X-rays; deduced differential intensity ratios, anisotropy and alignment parameters. Comparison with theoretical calculations. The 320-kV high-voltage platform at IMP-CAS in Lanzhou.

doi: 10.1103/PhysRevA.105.052807
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2022WA22      Phys.Rev. C 106, 015202 (2022)

X.-Y.Wang, F.Zeng, I.I.Strakovsky

ψ(*)p scattering length based on near-threshold charmonium photoproduction

NUCLEAR REACTIONS 1H(p, pJ/ψ), E=4.0-6.5 GeV; analyzed experimental total σ(E) and differential σ(E) data from GlueX, SLAC, and HERMES collaborations within the vector meson dominance (VMD) model using two gluon exchange model and effective Pomeron model; deduced scattering lengths of vector mesons and proton interaction, and ψ(2S)-proton interaction as function of ratio of final momentum and initial momentum. Relevance to future experiments on precise characterization of the vector meson-proton scattering length.

doi: 10.1103/PhysRevC.106.015202
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2022WA29      Phys.Rev. C 106, 024606 (2022)

X.Wang

Nuclear excitation of 229Th induced by laser-driven electron recollision

NUCLEAR REACTIONS 229Th(e, e')229mTh, E=10-100 eV, 10 eV-1 GeV; calculated total (E2+M1) electronic excitation σ(E) from 229Th ground state to 229Th isomeric state by laser-driven recollision-induced nuclear excitation (RINE) process, Green-Sellin-Zachor (GSZ) effective potential and absorption potential at E(e)=10, 50 and 100 eV, relationship between the recollision time and the ionization time, effective recollision flux densities as functions of laser intensity, laser wavelength, and laser pulse duration. Dirac distorted-wave calculations instead of previous Dirac plane-wave calculations, with the result that cross sections are 5 to 6 orders of magnitude higher than the plane-wave results. Relevance to interplay of nuclear physics, atomic physics, and laser physics, as well as applications in various fields, including strong-field atomic physics.

doi: 10.1103/PhysRevC.106.024606
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2022WA36      Chin.Phys.C 46, 104001 (2022)

X.Y.Wang, N.T.Zhang, Z.C.Zhang, C.G.Lu, T.L.Pu, J.L.Zhang, L.M.Duan, B.S.Gao, K.A.Li, Y.T.Li, Y.Qian, L.H.Ru, B.Wang, X.D.Xu, H.Y.Zhao, W.P.Lin, Z.W.Cai, B.F.Ji, Q.T.Li, J.Y.Xu, X.D.Tang

Studies of the 2α and 3α channels of the 12C+12C reaction in the range of Ec.m.=8.9 MeV to 21 MeV using the active target Time Projection Chamber

NUCLEAR REACTIONS 12C(12C, 2α), (12C, 8Be), (12C, 3α), (12C, X), E(cm)=8.9-21 MeV; measured reaction products, Eα, Iα; deduced fusion σ. Comparison with available data. 1024-channel TPC named pMATE (prototype Multi-purpose time projection chamber for nuclear Astrophysical and Exotic beam experiments), the Heavy Ion Research Facility in Lanzhou (HIRFL), China.

doi: 10.1088/1674-1137/ac7a1d
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2022WA43      Phys.Rev. C 106, 064325 (2022)

X.D.Wang, B.Qi, C.Liu, A.Rohilla, Y.Zhang

Restored symmetries for the observed excited alternating-parity band in even-even nuclei

NUCLEAR STRUCTURE 148Ce; calculated levels, J, π, bands structure, high-spin states, energies of states as functions of triaxial parameter, transi tion strengths ratios for the ground and excited alternating-parity bands - B(E1)/B(E2), B(E2)/B(E2), probability distribution of the total angular momentum. Comparison to experimental results.

doi: 10.1103/PhysRevC.106.064325
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2022WU09      Phys.Rev. C 105, 034909 (2022)

X.-Y.Wu, G.-Y.Qin, L.-G.Pang, X.-N.Wang

(3+1)-D viscous hydrodynamics at finite net baryon density: Identified particle spectra, anisotropic flows, and flow fluctuations across energies relevant to the beam-energy scan at RHIC

doi: 10.1103/PhysRevC.105.034909
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2022XU01      Phys.Rev. C 105, L011901 (2022)

H.-j.Xu, H.Li, Y.Zhou, X.Wang, J.Zhao, L.-W.Chen, F.Wang

Measuring neutron skin by grazing isobaric collisions

NUCLEAR REACTIONS 96Ru(96Ru, X), 96Zr(96Zr, X), E=200 GeV; calculated proton fractions in participating nucleons as function of charged hadron multiplicity using nuclear densities from extended Skyrme-Hartree-Fock eSHF and SHF(SLy4), net charge ratios, effect of nuclear quadrupole deformity on charge ratio using two models: reduced thickness event-by-event nuclear topology (TRENTO by 2015Mo12: Phys. Rev. C 92, 011901), and ultrarelativistic quantum molecular dynamics (URQMD v3.4); proposed a method to extract neutron skin using net-charge multiplicities in ultraperipheral (grazing) collisions of participating isobars in relativistic heavy-ion physics, under the assumption of superimposition of nucleon-nucleon interactions in such collisions.

doi: 10.1103/PhysRevC.105.L011901
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2022YA21      Phys.Rev. C 106, 024325 (2022)

G.L.Yang, B.Qi, X.D.Wang, C.Qi

Neutron-proton interaction in odd-odd nuclei from statistical analysis

NUCLEAR STRUCTURE A=4-260; analyzed experimental binding energy data extracted from AME2020; deduced proton-neutron interactions, correlations for pn-interactions between neighboring nuclei. Additional attractive np-interaction which persists between the last proton and last neutron in odd-odd nuclei resulted from statistical analysis.

doi: 10.1103/PhysRevC.106.024325
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2022ZH03      Phys.Rev.Lett. 128, 022302 (2022)

W.Zhao, W.Ke, W.Chen, T.Luo, X.-N.Wang

From Hydrodynamics to Jet Quenching, Coalescence, and Hadron Cascade: A Coupled Approach to Solving the RAA (X) υ2 Puzzle

doi: 10.1103/PhysRevLett.128.022302
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2022ZH14      Phys.Rev. C 105, 034339 (2022)

H.Zhang, B.Qi, X.D.Wang, H.Jia, S.Y.Wang

Influence of moments of inertia on transverse wobbling mode in odd-mass nuclei

NUCLEAR STRUCTURE 105Pd; calculated yrast and yrare bands energies, reduced transition probabilities B(E2), B(M1), ratios B(E2)out/B(E2)in and B(M1)/B(E2)in, root-mean square values of the core angular momentum components as functions of spin, probability distribution of the angular momentum orientation. Triaxial particle rotor model. Calculations are performed with different sets of Moment of Inertia parameters (e.g. rigid body, hydrodynamical, in between). Comparison to experimental data.

doi: 10.1103/PhysRevC.105.034339
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2022ZH29      Phys.Rev. C 105, 054902 (2022)

S.-L.Zhang, X.-N.Wang, B.-W.Zhang

Quenching of jets tagged with W bosons in high-energy nuclear collisions

doi: 10.1103/PhysRevC.105.054902
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2022ZH45      Phys.Rev. C 106, 024305 (2022)

M.M.Zhang, Y.L.Tian, Y.S.Wang, Z.Y.Zhang, Z.G.Gan, H.B.Yang, M.H.Huang, L.Ma, C.L.Yang, J.G.Wang, C.X.Yuan, C.Qi, A.N.Andreyev, X.Y.Huang, S.Y.Xu, Z.Zhao, L.X.Chen, J.Y.Wang, M.L.Liu, Y.H.Qiang, G.S.Li, W.Q.Yang, R.F.Chen, H.B.Zhang, Z.W.Lu, X.X.Xu, L.M.Duan, H.R.Yang, W.X.Huang, Z.Liu, X.H.Zhou, Y.H.Zhang, H.S.Xu, N.Wang, H.B.Zhou, X.J.Wen, S.Huang, W.Hua, L.Zhu, X.Wang, Y.C.Mao, X.T.He, S.Y.Wang, W.Z.Xu, H.W.Li, Y.F.Niu, L.Guo, Z.Z.Ren, S.G.Zhou

Fine structure in the α decay of the 8+ isomer in 216, 218U

RADIOACTIVITY 216,216m,218,218mU(α)[218U from 182W(40Ar, 4n), E=190 MeV, 184W(40Ca, 2nα), E=206 MeV, 216U from 180W(40Ar, 4n), E=191 MeV]; measured evaporation residues (EVRs), Eα, Iα, (EVR)α12-correlations, T1/2 using position-sensitive strip detectors (PSSDs) for α detection, and SHANS separator at HIRFL-Lanzhou. 216,216m,218,218mU; deduced T1/2, Q-values, α-branching ratio, α-decay hindrance factors. 204Rn, 208,210Ra, 212,214Th(α)[from 216,218U α-decay chains]; measured Eα, T1/2. 212Th; deduced level, J, π, identification of the first 2+ state. 215Ra, 212,213,216Ac, 211,212,213,214,216,216m,217Th, 216,217,217m,218Pa, 217,218,219U; observed Eα from their decays from (EVR)α-correlations. Comparison with previous experimental data.

doi: 10.1103/PhysRevC.106.024305
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2022ZH61      Phys.Rev. C 106, 044604 (2022)

H.Zhang, W.Wang, X.Wang

Nuclear excitation cross section of 229Th via inelastic electron scattering

NUCLEAR REACTIONS 229Th(e, e'), E<1 GeV; calculated σ(E) of the isomeric 1+ state excitation, contributions from the E2 or the M1 channels to the σ(E). Dirac distorted wave Born approximation (DWBA) calculations. Calculations show that inelastic scattering at energies below 100 eV is most efficient for the isomer excitation.

doi: 10.1103/PhysRevC.106.044604
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2021BE14      Eur.Phys.J. A 57, 100 (2021)

P.Bedaque, A.Boehnlein, M.Cromaz, M.Diefenthaler, L.Elouadrhiri, T.Horn, M.Kuchera, D.Lawrence, D.Lee, S.Lidia, R.McKeown, W.Melnitchouk, W.Nazarewicz, K.Orginos, Y.Roblin, M.S.Smith, M.Schram, X.-N.Wang

A.I. for nuclear physics

doi: 10.1140/epja/s10050-020-00290-x
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2021CH06      Nucl.Phys. A1005, 121934 (2021)

W.Chen, S.Cao, T.Luo, L.-G.Pang, X.-N.Wang

The effect of jet-induced medium excitation on Λ/k0s in jet in Pb-Pb collisions

doi: 10.1016/j.nuclphysa.2020.121934
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2021CH41      Phys.Rev.Lett. 127, 082301 (2021)

W.Chen, Z.Yang, Y.He, W.Ke, L.-G.Pang, X.-N.Wang

Search for the Elusive Jet-Induced Diffusion Wake in Z/γ-Jets with 2D Jet Tomography in High-Energy Heavy-Ion Collisions

doi: 10.1103/PhysRevLett.127.082301
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2021DI05      Eur.Phys.J. A 57, 202 (2021)

H.-T.Ding, S.-T.Li, Q.Shi, X.-D.Wang

Fluctuations and correlations of net baryon number, electric charge and strangeness in a background magnetic field

doi: 10.1140/epja/s10050-021-00519-3
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2021DU04      Nucl.Phys. A1005, 121891 (2021)

Y.L.Du, K.Zhou, J.Steinheimer, L.-G.Pang, A.Motornenko, H.-S.Zong, X.-N.Wang, H.Stocker

Identifying the nature of the QCD transition in heavy-ion collisions with deep learning

doi: 10.1016/j.nuclphysa.2020.121891
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2021GY01      Nucl.Phys. A1005, 121938 (2021)

M.Gyulassy, P.M.Jacobs, J.Liao, S.Shi, X.N.Wang, F.Yuan

Dijet Acoplanarity in CUJET3 as a Probe of the Nonperturbative Color Structure of QCD Perfect Fluids

doi: 10.1016/j.nuclphysa.2020.121938
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2021HE05      Nucl.Phys. A1005, 122032 (2021)

Y.He, S.Cao, W.Chen, T.Luo, L.-G.Pang, X.-N.Wang

Interplaying mechanisms behind inclusive jet RAA and extraction of jet energy loss distributions

doi: 10.1016/j.nuclphysa.2020.122032
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2021JI10      Nucl.Instrum.Methods Phys.Res. A1013, 165677 (2021)

B.Jiang, J.Han, W.Jiang, J.Hu, X.Wang, J.Chen, X.Cai

Monte-Carlo calculations of the energy resolution function with Geant4 for analyzing the neutron capture cross section of 232Th measured at CSNS Back-n

NUCLEAR REACTIONS 232Th, 197Au(n, γ), E<20 MeV; analyzed available data; calculated Energy Resolution Function (ERF) for the Back-n facility at the China Spallation Neutron Source (CSNS Back-n facility) a newly-built time-of-flight (TOF) spectrometer.

doi: 10.1016/j.nima.2021.165677
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2021JI16      Symmetry 13, 2278 (2021)

H.Jian, Y.Gao, F.Dai, J.Liu, X.Xu, C.Yuan, K.Kaneko, Y.Sun, P.Liang, G.Shi, L.Sun, L.Xayavong, C.Lin, J.Lee, Z.Li, Y.Yang, P.Li, R.Fan, S.Zha, H.Zhu, J.Li, Q.Gao, Z.Zhang, R.Chen, J.Wang, D.Wang, H.Wu, K.Wang, Y.Lam, F.Duan, P.Ma, Z.Gao, Q.Hu, Z.Bai, J.Ma, J.Wang, F.Zhong, C.Wu, D.Luo, Y.Jiang, Y.Liu, D.Hou, R.Li, N.Ma, W.Ma, G.Yu, D.Patel, S.Jin, Y.Wang, Y.Yu, Q.Zhou, P.Wang, L.Hu, X.Wang, H.L.Zang, Q.Zhao, L.Yang, P.Wen, F.Yang, H.Jia, G.Zhang, M.Pan, X.Wang, H.Sun, M.Wang, Z.Hu, X.Zhou, Y.Zhang, H.Xu, M.Liu, H.-J.Ong, W.Yang

β-Delayed γ Emissions of 26P and Its Mirror Asymmetry

RADIOACTIVITY 26P(β+), (EC) [from 9Be(32S, X), E=80.6 MeV/nucleon, followed by separation using RIBBL1 at HRIBF, Lanzhou facility]; measured Eγ, Iγ, βγ-coin, T1/2 of 26P decay. 26Si; deduced levels, J, π, β++ϵ feedings, logft, mirror asymmetry parameter from comparison with the ϵ decay of mirror nucleus 26Na to 26Mg, mirror-energy differences (MEDs), and halo structure in 26P. Comparison with shell-model calculations.

NUCLEAR REACTIONS 9Be(32S, X)22Na/23Mg/24Al/25Si/26P/27S, E=80.6 MeV/nucleon; measured reaction products, particle-identification (PID) plot of ΔE vs TOF for the ions separated using RIBBL1 separator at HRIBF, Lanzhou facility.

doi: 10.3390/sym13122278
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2021LI39      J.Phys.(London) G48, 095105 (2021)

T.Li, X.Wang

Nonlinear optical effects in a nucleus

NUCLEAR STRUCTURE 57Fe, 2H; calculated two-photon and three-photon σ(θ), integrated absorption rates.

doi: 10.1088/1361-6471/ac1712
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2021LI61      Phys.Rev. C 104, 054302 (2021)

X.X.Li, L.X.Liu, W.Jiang, J.Ren, H.W.Wang, G.T.Fan, X.G.Cao, Y.Zhang, X.R.Hu, Z.R.Hao, P.Kuang, B.Jiang, X.H.Wang, J.F.Hu, J.C.Wang, D.X.Wang, S.Y.Zhang, Y.D.Liu, X.Ma, C.W.Ma, Y.T.Wang, Z.D.An, J.J.He, J.Su, L.Y.Zhang, Y.X.Yang, W.B.Liu, W.Q.Su

New experimental measurement of natEr(n, γ) cross sections between 1 and 100 eV

NUCLEAR REACTIONS 162,164,166,167,168,170Er, 12,13C, 197Au(n, γ), E=0.001-100 keV; measured E(n), I(n), Eγ, Iγ using C6D6 liquid scintillator and a silicon monitor and natural Er, C and Au targets at the China spallation neutron source (CSNS) facility; deduced neutron-capture σ(E), capture yields as function of E(n), neutron resonances in Er isotopes in the 1-100 eV region. 162,164,166,167,168Er; deduced energies of 43 neutron resonances (nine for 162Er, five for 164Er, three for 166Er, 25 for 167Er, one for 168Er), cross sections, widths Γγ and Γn by R-matrix analysis. Comparison with previous experimental data, and with data in evaluated databases ENDF/B-VIII.0, ENDF/B-VII.1, JENDL-4.0, and ROSFOND-2010.

doi: 10.1103/PhysRevC.104.054302
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset32861.


2021LI66      J.Phys.(London) G48, 125105 (2021)

J.Liu, X.Liu, X.Wang, S.Wang, C.Xu, Z.Ren

Extraction of the second and fourth radial moments of nuclear charge density from the elastic electron-nucleus scattering

NUCLEAR STRUCTURE 40,48Ca, 116,124Sn; calculated charge density distributions, radii.

doi: 10.1088/1361-6471/ac2cd5
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2021PA23      Eur.Phys.J. A 57, 193 (2021)

H.Pais, B.Bertolino, J.Fang, X.Wang, C.Providencia

Strong magnetic fields: neutron stars with an extended inner crust

doi: 10.1140/epja/s10050-021-00506-8
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2021PR02      Nucl.Phys. A1005, 121903 (2021)

C.A.G.Prado, W.-J.Xing, S.Cao, G.-Y.Qin, X.-N.Wang

Longitudinal dependence of B and D meson nuclear modifications in heavy-ion collisions at RHIC and the LHC

doi: 10.1016/j.nuclphysa.2020.121903
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2021RO14      Eur.Phys.J. A 57, 143 (2021)

C.H.Rong, J.Rangel, Y.S.Wu, G.L.Zhang, G.X.Zhang, C.J.Lin, E.N.Cardozo, X.Y.Wang, L.Yang, N.R.Ma, D.X.Wang, L.J.Sun, H.M.Jia, F.Yang, J.S.Wang, Y.Y.Yang, J.B.Ma, P.Ma, Z.Bai, S.W.Xu, F.F.Duan, X.B.Qin, H.M.Zhao, J.Lubian

Study of quasi-elastic scattering of 17F+208Pb at energies around Coulomb barrier

NUCLEAR REACTIONS 208Pb(17F, 17F), E=94.5 MeV; measured reaction products. 17F; deduced σ(θ), σ. Comparison with continuum discretized coupled channel method (CDCC) calculations.

doi: 10.1140/epja/s10050-021-00454-3
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetS0269.


2021SH23      Phys.Rev. C 103, L061301 (2021)

G.Z.Shi, J.J.Liu, Z.Y.Lin, H.F.Zhu, X.X.Xu, L.J.Sun, P.F.Liang, C.J.Lin, J.Lee, C.X.Yuan, S.M.Wang, Z.H.Li, H.S.Xu, Z.G.Hu, Y.Y.Yang, R.F.Chen, J.S.Wang, D.X.Wang, H.Y.Wu, K.Wang, F.F.Duan, Y.H.Lam, P.Ma, Z.H.Gao, Q.Hu, Z.Bai, J.B.Ma, J.G.Wang, F.P.Zhong, C.G.Wu, D.W.Luo, Y.Jiang, Y.Liu, D.S.Hou, R.Li, N.R.Ma, W.H.Ma, G.M.Yu, D.Patel, S.Y.Jin, Y.F.Wang, Y.C.Yu, Q.W.Zhou, P.Wang, L.Y.Hu, X.Wang, H.L.Zang, P.J.Li, Q.R.Gao, H.Jian, S.X.Zha, F.C.Dai, R.Fan, Q.Q.Zhao, L.Yang, P.W.Wen, F.Yang, H.M.Jia, G.L.Zhang, M.Pan, X.Y.Wang, H.H.Sun, X.H.Zhou, Y.H.Zhang, M.Wang, M.L.Liu, H.J.Ong, W.Q.Yang

β-delayed two-proton decay of 27S at the proton-drip line

RADIOACTIVITY 27S(β+2p)[from 9Be(32S, X), E=80.6 MeV/nucleon, followed by separation and purification of fragments using RIBLL1 at HIRFL-Lanzhou facility, and implanted into three W1-type double-sided silicon strip detectors (DSSDs)]; measured reaction products, E(p), I(p), pp-coin, p(θ), half-life of 27S decay using Si detectors surrounded by HPGe detectors; deduced branching ratio of β+2p decay, identified as a two-proton transition, dominantly sequential, via the isobaric-analog state (IAS) in 27P to the ground state of 25Al.

doi: 10.1103/PhysRevC.103.L061301
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2021SO11      Phys.Rev. C 103, 034907 (2021)

J.Song, X.-f.Wang, H.-h.Li, R.-q.Wang, F.-l.Shao

Strange hadron production in a quark combination model in Au + Au collisions at energies available at the BNL Relativistic Heavy Ion Collider

doi: 10.1103/PhysRevC.103.034907
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2021WA22      Phys.Rev. C 103, 034606 (2021)

X.G.Wang, A.W.Thomas

Relativistic mean-field corrections for interactions of dark matter particles with nucleons

doi: 10.1103/PhysRevC.103.034606
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2021WA26      Nucl.Phys. A1011, 122196 (2021)

X.Wang, X.Bao

Multinucleon transfer reactions in the nearly symmetric reaction systems 204Hg+208Pb and 204Hg+198Pt

NUCLEAR REACTIONS 208Pb, 198Pt(204Hg, X), E(cm)=577.05, 619 MeV; calculated transfer σ using the improved dinuclear system (DNS) model. Comparison with available data.

doi: 10.1016/j.nuclphysa.2021.122196
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2021WA37      Phys.Rev.Lett. 127, 052501 (2021)

W.Wang, J.Zhou, B.Liu, X.Wang

Exciting the Isomeric 229Th Nuclear State via Laser-Driven Electron Recollision

RADIOACTIVITY 229Th(IT); analyzed available data; calculated isomeric excitation probability for a laser-driven electron recollision process.

doi: 10.1103/PhysRevLett.127.052501
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2021WA41      Phys.Rev. C 104, 034317 (2021)

X.Wang, L.Zhu, J.Su

Providing physics guidance in Bayesian neural networks from the input layer: The case of giant dipole resonance predictions

NUCLEAR STRUCTURE A=16-240; 124,126,128,130,132,134,136,138,140,142,144,146,148,150,152,154,156,158,160Nd; analyzed giant-dipole resonance (GDR) data using Bayesian neural network (BNN) approach; evaluated and predicted nuclear data. Pearson's correlation coefficients applied for statistical dependence between nuclear properties in the ground state and the GDR energies. Relevance to discovering physics effects from complex nuclear data.

doi: 10.1103/PhysRevC.104.034317
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2021WA47      Phys.Rev. C 104, 044315 (2021)

X.-W.Wang, J.-Y.Guo

Research on deformed exotic nuclei by relativistic mean field theory in complex momentum representation

NUCLEAR STRUCTURE 75Cr; calculated binding energy per nucleon and energies of single-particle Nilsson levels as a function of quadrupole deformation β2, energies of single-particle bound and resonant states as a function of β2 with real and imaginary components (numerical values tabulated in the Supplemental Material of the paper), radial density distributions for single-particle states, occupation probabilities of Nilsson orbitals. Complex momentum representation (CMR) method for resonances with the relativistic mean field (RMF) theory.

doi: 10.1103/PhysRevC.104.044315
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2021WA48      Eur.Phys.J. A 57, 275 (2021)

X.-W.Wang, Z.-G.Wang, G.-l.Yu

Study of Λc Λc dibaryon and Λc Λc-bar baryonium states via QCD sum rules

doi: 10.1140/epja/s10050-021-00576-8
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2021WA54      New Journal of Physics 23, 115010 (2021)

X.-Y.Wang, M.D.Frye, Z.Su, J.Cao, L.Liu, D.-C.Zhang, H.Yang, J.M.Hutson, B.Zhao, C.L.Bai

Magnetic Feshbach resonances in collisions of 23Na40K with 40K

ATOMIC PHYSICS 23Na, 40K; measured frequencies; deduced magnetic Feshbach resonances, hyperfine levels.

doi: 10.1088/1367-2630/ac3318
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2021WA55      Chin.Phys.C 45, 124103 (2021)

X.Wang, L.Zhu, J.Su

Modeling complex networks of nuclear reaction data for probing their discovery processes

NUCLEAR REACTIONS 63Cu(n, 2n), 6Li(γ, xn), E not given; analyzed available data; deduced model to build networks for discovery processes of nuclear reaction data based on a Bayesian statistics-based approach.

doi: 10.1088/1674-1137/ac23d5
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2021WA56      J.Phys.(London) B54, 244001 (2021)

W.Wang, H.Zhang, X.Wang

Strong-field atomic physics meets 229Th nuclear physics

RADIOACTIVITY 229Th(IT); analyzed available data; calculated electronic excitation σ, flux density of the recolliding electron, ionization probabilities, nuclear isomeric excitation probabilities. Recollision-induced nuclear excitation (RINE).

doi: 10.1088/1361-6455/ac45ce
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2021WE04      Chin.Phys.C 45, 024109 (2021)

K.Wei, H.-F.Zhang, Z.-X.He, X.-Y.Wang, S.-Q.Guo, B.T.Hu

Multi-parameter global calculations of fission fragments using a simplified two-dimensional scission-point model

NUCLEAR REACTIONS 233,235U(n, F), E=6.54 MeV; 239Pu(n, F), E=6.84 MeV; calculated charge and mass distributions, yields. Comparison with available data.

doi: 10.1088/1674-1137/abd083
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2021WU01      Nucl.Phys. A1005, 121827 (2021)

X.-Y.Wu, L.-G.Pang, G.-Y.Qin, X.-N.Wang

Effects of dissipative baryon current in heavy-ion collisions at RHIC-BES energies

doi: 10.1016/j.nuclphysa.2020.121827
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2021XI02      Phys.Rev. C 103, 034911 (2021)

M.Xie, X.-N.Wang, H.-Z.Zhang

γ-hadron spectra in p + Pb collisions at √ sNN = 5.02 TeV

doi: 10.1103/PhysRevC.103.034911
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2021ZH04      Nucl.Phys. A1005, 122003 (2021)

Y.-Y.Zhang, G.-Y.Qin, X.-N.Wang

Parton Energy Loss in the Generalized High-Twist Approach

doi: 10.1016/j.nuclphysa.2020.122003
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2021ZH13      Nucl.Phys. A1005, 121786 (2021)

J.-J.Zhang, R.-H.Fang, Q.Wang, X.-N.Wang

Quark polarization from parton scatterings in heavy ion collisions

doi: 10.1016/j.nuclphysa.2020.121786
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2021ZH22      Phys.Rev.Lett. 126, 152502 (2021)

Z.Y.Zhang, H.B.Yang, M.H.Huang, Z.G.Gan, C.X.Yuan, C.Qi, A.N.Andreyev, M.L.Liu, L.Ma, M.M.Zhang, Y.L.Tian, Y.S.Wang, J.G.Wang, C.L.Yang, G.S.Li, Y.H.Qiang, W.Q.Yang, R.F.Chen, H.B.Zhang, Z.W.Lu, X.X.Xu, L.M.Duan, H.R.Yang, W.X.Huang, Z.Liu, X.H.Zhou, Y.H.Zhang, H.S.Xu, N.Wang, H.B.Zhou, X.J.Wen, S.Huang, W.Hua, L.Zhu, X.Wang, Y.C.Mao, X.T.He, S.Y.Wang, W.Z.Xu, H.W.Li, Z.Z.Ren, S.G.Zhou

New α-Emitting Isotope 214U and Abnormal Enhancement of α-Particle Clustering in Lightest Uranium Isotopes

RADIOACTIVITY 214,216,218U(α) [from 180,182W(36Ar, 4n), 184W(40Ca, 2nα), E<200 MeV]; measured decay products, Eα, Iα; deduced α-decay Q-values and reduced widths, T1/2, abnormal enhancement by the strong monopole interaction between the valence protons and neutrons. Comparison withavailable data, calculations.

doi: 10.1103/PhysRevLett.126.152502
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetS0279. Data from this article have been entered in the XUNDL database. For more information, click here.


2021ZH49      Nucl.Instrum.Methods Phys.Res. A1016, 165740 (2021)

Z.C.Zhang, X.Y.Wang, T.L.Pu, C.G.Lu, N.T.Zhang, J.L.Zhang, L.M.Duan, B.S.Gao, J.Gao, R.J.Hu, E.Q.Liu, K.A.Li, Q.T.Li, Y.T.Li, B.F.Lv, H.Y.Ma, J.B.Ma, H.J.Ong, Y.Qian, L.H.Ru, L.T.Sun, X.D.Tang, J.Y.Xu, X.D.Xu, Y.Yang, Y.H.Zhai, H.Y.Zhao, H.W.Zhao

Studying the heavy-ion fusion reactions at stellar energies using Time Projection Chamber

NUCLEAR REACTIONS 12C(12C, α)20Ne, E(cm)=3 MeV; measured reaction products, Eα, Iα; deduced preliminary σ, yields.

doi: 10.1016/j.nima.2021.165740
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2020GA34      J.Phys.(London) G47, 045108 (2020)

J.Galan, X.Chen, H.Du, C.Fu, K.Giboni, F.Giuliani, K.Han, B.Jiang, X.Ji, H.Lin, Y.Lin, J.Liu, K.Ni, X.Ren, S.Wang, S.Wu, C.Xie, Y.Yang, T.Zhang, L.Zhao, S.Aune, Y.Bedfer, E.Berthoumieux, D.Calvet, N.d'Hose, E.Ferrer-Ribas, F.Kunne, B.Manier, D.Neyret, T.Papaevangelou, L.Chen, S.Hu, P.Li, X.Li, H.Zhang, M.Zhao, J.Zhou, Y.Mao, H.Qiao, S.Wang, Y.Yuan, M.Wang, Y.Chen, A.N.Khan, J.Tang, W.Wang, H.Chen, C.Feng, J.Liu, S.Liu, X.Wang, D.Zhu, J.F.Castel, S.Cebrian, T.Dafni, I.G.Irastorza, G.Luzon, H.Mirallas, X.Sun, A.Tan, W.Haxton, Y.Mei, C.Kobdaj, Y.Yan

Topological background discrimination in the PandaX-III neutrinoless double beta decay experiment

doi: 10.1088/1361-6471/ab4dbe
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2020HE21      Phys.Rev.Lett. 125, 122301 (2020)

Y.He, L.-G.Pang, X.-N.Wang

Gradient Tomography of Jet Quenching in Heavy-Ion Collisions

doi: 10.1103/PhysRevLett.125.122301
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2020LI06      Phys.Rev. C 101, 024305 (2020)

P.F.Liang, L.J.Sun, J.Lee, S.Q.Hou, X.X.Xu, C.J.Lin, C.X.Yuan, J.J.He, Z.H.Li, J.S.Wang, D.X.Wang, H.Y.Wu, Y.Y.Yang, Y.H.Lam, P.Ma, F.F.Duan, Z.H.Gao, Q.Hu, Z.Bai, J.B.Ma, J.G.Wang, F.P.Zhong, C.G.Wu, D.W.Luo, Y.Jiang, Y.Liu, D.S.Hou, R.Li, N.R.Ma, W.H.Ma, G.Z.Shi, G.M.Yu, D.Patel, S.Y.Jin, Y.F.Wang, Y.C.Yu, Q.W.Zhou, P.Wang, L.Y.Hu, X.Wang, H.L.Zang, P.J.Li, Q.Q.Zhao, H.M.Jia, L.Yang, P.W.Wen, F.Yang, G.L.Zhang, M.Pan, X.Y.Wang, H.H.Sun, Z.G.Hu, R.F.Chen, M.L.Liu, W.Q.Yang, Y.M.Zhao

Simultaneous measurement of β-delayed proton and γ emission of 26P for the 25Al(p, γ)26Si reaction rate

RADIOACTIVITY 26P(β+), (β+p)[from 9Be(32S, X), E=806 MeV/nucleon, followed by in-flight separation by the RIBLL1 fragment separator at HIRFL-Lanzhou]; measured E(p), I(p), Eγ, Iγ, βp- and βγ-coin, half-life of the decay of 26P from correlated events of 26P implants and successive decays using three double-sided silicon strip detectors (DSSDs), five Clover-type HPGe detectors, and five quadrant silicon detectors (Q SDs). 26Si; deduced levels, J, π, Γp and Γγ of 5929, 3+ state. Comparison with previous experimental data, and with shell-model calculations.

NUCLEAR REACTIONS 9Be(32S, X)22Na/23Mg/24Al/25Si/26P, E=806 MeV/nucleon; measured reaction products and TOF-ΔE spectrum using in-flight separation by the RIBLL1 fragment separator at HIRFL-Lanzhou. 25Al(p, γ)26Si, T=0.03-1.1 GK; deduced energies and strengths of resonances, corresponding astrophysical reaction rates, and compared with data in JINA REACLIB database.

doi: 10.1103/PhysRevC.101.024305
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2020LI50      Phys.Rev.Lett. 125, 222301 (2020)

H.Li, H.-j.Xu, Y.Zhou, X.Wang, J.Zhao, L.-W.Chen, F.Wang

Probing the Neutron Skin with Ultrarelativistic Isobaric Collisions

doi: 10.1103/PhysRevLett.125.222301
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2020MA16      Phys.Rev. C 101, 044312 (2020)

S.N.T.Majola, M.A.Sithole, L.Mdletshe, D.Hartley, J.Timar, B.M.Nyako, J.M.Allmond, R.A.Bark, C.Beausang, L.Bianco, T.D.Bucher, S.P.Bvumbi, M.P.Carpenter, C.J.Chiara, N.Cooper, D.M.Cullen, D.Curien, T.S.Dinoko, B.J.P.Gall, P.E.Garrett, P.T.Greenlees, J.Hirvonen, U.Jakobsson, P.M.Jones, R.Julin, S.Juutinen, S.Ketelhut, B.V.Kheswa, F.G.Kondev, A.Korichi, W.D.Kulp, T.Lauritsen, E.A.Lawrie, L.Makhathini, P.L.Masiteng, B.Maqabuka, E.A.McCutchan, D.Miller, S.Miller, A.Minkova, L.Msebi, S.H.Mthembu, J.Ndayishimye, P.Nieminen, P.Z.Ngcobo, S.S.Ntshangase, J.N.Orce, P.Peura, P.Rahkila, N.Redon, L.L.Riedinger, M.A.Riley, D.G.Roux, P.Ruotsalainen, J.Piot, J.Saren, J.F.Sharpey-Schafer, C.Scholey, O.Shirinda, J.Simpson, J.Sorri, I.Stefanescu, S.Stolze, J.Uusitalo, X.Wang, V.Werner, J.L.Wood, C.-H.Yu, S.Zhu, G.Zimba

First candidates for γ vibrational bands built on the [505] 11/2- neutron orbital in odd-A Dy isotopes

NUCLEAR REACTIONS 155Gd(α, 2n)157Dy, E=25 MeV; measured Eγ, Iγ, γγ-coin, γγ(θ)(DCO), γγ(linear polarization) using the JUROGAM II array at the University of Jyvaskyla. 148Nd(12C, 5n)155Dy, E=65 MeV; 124Sn(36S, 5n)155Dy, E=165 MeV; measured Eγ, Iγ, γγ-coin using GAMMASPHERE array at Argonne National Laboratory. 155,157Dy; deduced high-spin levels, J, π, multipolarities, Kπ=0+ bands, Kπ=2+ γ-vibrational bands, configurations, alignments, B(M1)/B(E2) ratios. 157Dy; calculated neutron quasiparticle Routhians using cranked shell model (CSM). 154,156Dy; discussed first excited 0+ states in the core nuclei. Systematics of level energies versus spin for γ bands in 154,155,156,157,158Dy and 152,153,154,155,156Gd.

doi: 10.1103/PhysRevC.101.044312
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2020PR06      Phys.Rev. C 101, 064907 (2020)

C.A.G.Prado, W.-J.Xing, S.Cao, G.-Y.Qin, X.-N.Wang

Longitudinal dependence of open heavy flavor RAA in relativistic heavy-ion collisions

doi: 10.1103/PhysRevC.101.064907
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2020QI03      Phys.Rev. C 102, 064629 (2020)

J.Qi, L.Fu, X.Wang

Nuclear fission in intense laser fields

RADIOACTIVITY 109I, 113Cs, 141Ho, 150Lu, 155Ta(p); 144Nd, 164Hf, 221Ra, 217,218,220,222,224,226,228,230,232Th, 243Cm(α); 150Sm(12C); 154Gd(16O); 223Ra(14C); 226Th(18O); 235U(24Ne); 236U, 236Pu(28Mg); 238Pu(32Si); calculated modifications to the half-lives of selected fission processes, including proton emission, α decay, and cluster decay in the interaction of intense laser fields with nuclei using nuclear double folding potentials.

doi: 10.1103/PhysRevC.102.064629
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2020SA33      Phys.Rev.Lett. 125, 112501 (2020)

H.Saul, C.Roick, H.Abele, H.Mest, M.Klopf, A.K.Petukhov, T.Soldner, X.Wang, D.Werder, B.Markisch

Limit on the Fierz Interference Term b from a Measurement of the Beta Asymmetry in Neutron Decay

RADIOACTIVITY 1NN(β-); calculated decay rate correction.

doi: 10.1103/PhysRevLett.125.112501
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2020SH20      Chin.Phys.C 44, 094108 (2020)

H.Shi, X.-B.Wang, G.-X.Dong, H.Wang

Abnormal odd-even staggering behavior around 132Sn studied by density functional theory

NUCLEAR STRUCTURE 120,122,124,126,128,130,132,134,136,138,140Sn; calculated neutron pairing gap, abnormal odd-even staggering.

doi: 10.1088/1674-1137/44/9/094108
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2020SU02      Phys.Lett. B 800, 135096 (2020)

M.D.Sun, Z.Liu, T.H.Huang, W.Q.Zhang, A.N.Andreyev, B.Ding, J.G.Wang, X.Y.Liu, H.Y.Lu, D.S.Hou, Z.G.Gan, L.Ma, H.B.Yang, Z.Y.Zhang, L.Yu, J.Jiang, K.L.Wang, Y.S.Wang, M.L.Liu, Z.H.Li, J.Li, X.Wang, A.H.Feng, C.J.Lin, L.J.Sun, N.R.Ma, W.Zuo, H.S.Xu, X.H.Zhou, G.Q.Xiao, C.Qi, F.S.Zhang

Fine structure in the α decay of 223U

RADIOACTIVITY 223U, 219Th, 215Ra(α) [from 187Re(40Ar, 3np), E=188 MeV]; measured reaction products, Eα, Iα; deduced α-decay branches, fine structure.

doi: 10.1016/j.physletb.2019.135096
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2020WA13      Phys.Rev. A 101, 041601R (2020)

X.-Q.Wang, Y.-X.Wang, X.-P.Liu, R.Qi, X.-C.Yao, Y.-A.Chen, J.-W.Pan

Observation of state-to-state hyperfine-changing collisions in a Bose-Fermi mixture of 6Li and 41K atoms

ATOMIC PHYSICS 6li, 41K; measured frequencies; deduced magnetic-field dependence of the ground-state energies, scattering lengths.

doi: 10.1103/PhysRevA.101.041601
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2020WA16      Nucl.Instrum.Methods Phys.Res. A971, 164068 (2020)

X.Wang, Z.H.Li, Z.Liu, J.Li, H.Hua, H.Y.Lu, W.Q.Zhang, T.H.Huang, M.D.Sun, J.G.Wang, X.Y.Liu, B.Ding, Z.G.Gan, L.Ma, H.B.Yang, Z.Y.Zhang, L.Yu, J.Jiang, K.L.Wang, Y.S.Wang, M.L.Liu, C.J.Lin, L.J.Sun, N.R.Ma, H.S.Xu, X.H.Zhou, G.Q.Xiao, H.Y.Wu, C.Xu, S.Q.Zhang, X.Q.Li, R.Han, Z.Q.Chen, C.G.Wu, D.W.Luo, Y.Jin, J.Lin, D.X.Jiang, Y.L.Ye, F.S.Zhang

An effective digital pulse processing method for pile-up pulses in decay studies of short-lived nuclei

RADIOACTIVITY 219Th(α), 210,211Ra(IT) [from 175Lu, 186W, 187Re(40Ar, X), E=188 MeV]; measured decay products, Eα, Iα; deduced α spectra, proper baseline correction, standard pulse construction and plateau-region fitting, spectroscopic information of overlapping signals.

doi: 10.1016/j.nima.2020.164068
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2020WA18      Phys.Rev. C 102, 011601 (2020)

X.Wang

Substantially enhanced deuteron-triton fusion probabilities in intense low-frequency laser fields

NUCLEAR REACTIONS 2H(t, nα); calculated deuteron-triton (DT) fusion probabilities, angle-averaged effective DT fusion cross-sections as function of wavelength and intensity of low-frequency intense laser fields.

doi: 10.1103/PhysRevC.102.011601
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2020ZH02      Phys.Lett. B 801, 135170 (2020), Corrigendum Phys.Lett. B 803, 135278 (2020)

N.T.Zhang, X.Y.Wang, D.Tudor, B.Bucher, I.Burducea, H.Chen, Z.J.Chen, D.Chesneanu, A.I.Chilug, L.R.Gasques, D.G.Ghita, C.Gomoiu, K.Hagino, S.Kubono, Y.J.Li, C.J.Lin, W.P.Lin, R.Margineanu, A.Pantelica, I.C.Stefanescu, M.Straticiuc, X.D.Tang, L.Trache, A.S.Umar, W.Y.Xin, S.W.Xu, Y.Xu

Constraining the 12C+12C astrophysical S-factors with the 12C+13C measurements at very low energies

NUCLEAR REACTIONS 12C(13C, p)24Na, E=4.640-10.995 MeV; measured reaction products, Eγ, Iγ; deduced σ, branching ratio, S-factor.

doi: 10.1016/j.physletb.2019.135170
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2019CA14      Phys.Rev. C 99, 054907 (2019)

S.Cao, G.Coci, S.K.Das, W.Ke, S.Y.F.Liu, S.Plumari, T.Song, Y.Xu, J.Aichelin, S.Bass, E.Bratkovskaya, X.Dong, P.B.Gossiaux, V.Greco, M.He, M.Nahrgang, R.Rapp, F.Scardina, X.-N.Wang

Toward the determination of heavy-quark transport coefficients in quark-gluon plasma

doi: 10.1103/PhysRevC.99.054907
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2019CH24      Phys.Rev.Lett. 122, 212502 (2019)

Z.Q.Chen, Z.H.Li, H.Hua, H.Watanabe, C.X.Yuan, S.Q.Zhang, G.Lorusso, S.Nishimura, H.Baba, F.Browne, G.Benzoni, K.Y.Chae, F.C.L.Crespi, P.Doornenbal, N.Fukuda, G.Gey, R.Gernhauser, N.Inabe, T.Isobe, D.X.Jiang, A.Jungclaus, H.S.Jung, Y.Jin, D.Kameda, G.D.Kim, Y.K.Kim, I.Kojouharov, F.G.Kondev, T.Kubo, N.Kurz, Y.K.Kwon, X.Q.Li, J.L.Lou, G.J.Lane, C.G.Li, D.W.Luo, A.Montaner-Piza, K.Moschner, C.Y.Niu, F.Naqvi, M.Niikura, H.Nishibata, A.Odahara, R.Orlandi, Z.Patel, Z.Podolyak, T.Sumikama, P.-A.Soderstrom, H.Sakurai, H.Schaffner, G.S.Simpson, K.Steiger, H.Suzuki, J.Taprogge, H.Takeda, Zs.Vajta, H.K.Wang, J.Wu, A.Wendt, C.G.Wang, H.Y.Wu, X.Wang, C.G.Wu, C.Xu, Z.Y.Xu, A.Yagi, Y.L.Ye, K.Yoshinaga

Proton Shell Evolution below 132Sn : First Measurement of Low-Lying β-Emitting Isomers in 123, 125Ag

RADIOACTIVITY 123,125Pd(β-) [from Be(238U, X), E=345 MeV/nucleon]; measured decay products, Eγ, Iγ; deduced energy levels, J, π. Comparison with shell-model calculations.

doi: 10.1103/PhysRevLett.122.212502
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2019CH34      At.Data Nucl.Data Tables 129-130, 101278 (2019)

Z.-B.Chen, Y.-S.Tian, C.-C.Sang, X.-L.Wang, K.Wang, X.-L.Guo

Energies and transition parameters of fusion interest in Cr-like ions between Hf XLIX and Au LVI

ATOMIC PHYSICS Z=72-79; calculated energies, wavelengths, and T1/2.

doi: 10.1016/j.adt.2019.03.003
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Note: The following list of authors and aliases matches the search parameter X.Wang: , X.B.WANG, X.C.WANG, X.D.WANG, X.F.WANG, X.G.WANG, X.H.WANG, X.J.WANG, X.L.WANG, X.M.WANG, X.N.WANG, X.P.WANG, X.Q.WANG, X.R.WANG, X.S.WANG, X.W.WANG, X.X.WANG, X.Y.WANG, X.Z.WANG