NSR Query Results
Output year order : Descending NSR database version of May 3, 2024. Search: Author = L.Zheng Found 32 matches. 2023LE19 Phys.Rev. C 108, 064909 (2023) A.-K.Lei, Y.-L.Yan, D.-M.Zhou, Zh.-L.She, L.Zheng, G.-Ch.Yong, X.-M.Li, G.Chen, X.Cai, B.-H.Sa Introduction to the parton and hadron cascade model PACIAE 3.0
doi: 10.1103/PhysRevC.108.064909
2022CU04 Eur.Phys.J. A 58, 53 (2022) Strange particle production in jets and underlying events in pp collisions √ s=7 TeV with PYTHIA8 generator
doi: 10.1140/epja/s10050-022-00709-7
2022SH10 Eur.Phys.J. A 58, 15 (2022) Z.-L.She, L.Zheng, D.-M.Zhou, Y.-L.Xie, H.-G.Xu, G.Chen Collision system size dependence of light (anti-)nuclei and (anti-)hypertriton production in high energy nuclear collisions
doi: 10.1140/epja/s10050-022-00673-2
2021SH02 Phys.Rev. C 103, 014906 (2021) Z.-L.She, G.Chen, D.-M.Zhou, L.Zheng, Y.-L.Xie, H.-G.Xu Predictions for production of 3ΛH and 3overΛH-bar in isobaric 9644Ru + 9644Ru and 9640Zr + 9640Zr collisions at √ sNN = 200 GeV NUCLEAR REACTIONS 96Ru(96Ru, X), 96Zr(96Zr, X), E=200 GeV; calculated yields, yield ratios, coalescence parameters, and strangeness population factors of 3H, anti-3H, hypertriton, anti-hypertriton, 3He, anti-3He. Dynamically constrained phase-space coalescence model and the PACIAE model with chiral magnetic effect. Comparisons with experimental data of Cu + Cu, Au + Au, and Pb + Pb collisions from RHIC, LHC, and the results of the PACIAE + DCPC model calculations.
doi: 10.1103/PhysRevC.103.014906
2021WU03 Phys.Rev. C 103, 034906 (2021) W.-Y.Wu, C.-Z.Wang, Q.-Y.Shou, Y.-G.Ma, L.Zheng Charge-dependent transverse momentum and its impact on the search for the chiral magnetic wave
doi: 10.1103/PhysRevC.103.034906
2021ZH39 Phys.Rev. C 104, 014908 (2021) C.Zhang, L.Zheng, S.Shi, Z.-W.Lin Using local nuclear scaling of initial condition parameters to improve the system size dependence of transport model descriptions of nuclear collisions NUCLEAR REACTIONS 1H(p, X), E=0.0236-13 TeV; Pb(Pb, X)=7.7-200 GeV/nucleon; 1H(Pb, X), E=5.02 TeV/nucleon; Cu(Cu, X), E=200 GeV/nucleon; Xe(Xe, X), E=5.44 TeV/nucleon; calculated charged particle yields and transverse momentum spectra using a multi-phase transport (AMPT) model. Comparison with available experimental data for various collision systems from p+p to Pb+Pb from Large Hadron Collider (LHC) facilities.
doi: 10.1103/PhysRevC.104.014908
2020XU09 Phys.Rev. C 102, 054319 (2020) H.-g.Xu, G.Chen, Y.-L.Yan, D.-M.Zhou, L.Zheng, Y.-L.Xie, Z.-L.She, B.-H.Sa Investigation of Ω0c states decaying to Ξ+cK- in pp collisions at √ s = 7, 13 TeV
doi: 10.1103/PhysRevC.102.054319
2020ZH09 Phys.Rev. C 101, 034905 (2020) L.Zheng, C.Zhang, S.S.Shi, Z.W.Lin Improvement of heavy flavor production in a multiphase transport model updated with modern nuclear parton distribution functions
doi: 10.1103/PhysRevC.101.034905
2020ZH38 Phys.Rev. C 102, 044903 (2020) D.-M.Zhou, L.Zheng, Y.-L.Yan, Z.-h.Song, G.Chen, X.-M.Li, X.Cai, B.-H.Sa Impact of single string structure and multiple string interaction on strangeness production in Pb + Pb collisions at √ sNN = 2.76 TeV
doi: 10.1103/PhysRevC.102.044903
2019LI14 Phys.Rev. C 99, 034904 (2019) F.-X.Liu, G.Chen, Z.-L.She, L.Zheng, Y.-L.Xie, Z.-J.Dong, D.-M.Zhou, B.-H.Sa 3ΛH and 3Λ-barH-bar production and characterization in Cu + Cu collisions at √ sNN = 200 GeV
doi: 10.1103/PhysRevC.99.034904
2019ZH32 Phys.Rev. C 99, 064906 (2019) C.Zhang, L.Zheng, F.Liu, S.Shi, Z.-W.Lin Update of a multiphase transport model with modern parton distribution functions and nuclear shadowing
doi: 10.1103/PhysRevC.99.064906
2018LI01 Ann.Nucl.Energy 111, 660 (2018) Z.Liu, C.Yang, Y.Yang, L.Zheng, L.Rong Measurement and analysis of 232Th(n, 2n)231Th reaction rate in the thorium oxide cylinder with a D-T neutron source NUCLEAR REACTIONS 232Th(n, 2n), E=14.5-15.5 MeV; measured reaction products, Eγ, Iγ; deduced reaction rates. Comparison with MCNP code calculations employing ENDF/B-VI, ENDF/B-VII.0, ENDF/B-VII.1, CENDL-3.1 and JENDL-4.0 libraries.
doi: 10.1016/j.anucene.2017.06.041
2018ZH18 Phys.Rev. C 97, 044618 (2018) G.L.Zhang, G.X.Zhang, C.J.Lin, J.Lubian, J.Rangel, B.Paes, J.L.Ferreira, H.Q.Zhang, W.W.Qu, H.M.Jia, L.Yang, N.R.Ma, L.J.Sun, D.X.Wang, L.Zheng, X.X.Liu, X.T.Chu, J.C.Yang, J.S.Wang, S.W.Xu, P.Ma, J.B.Ma, S.L.Jin, Z.Bai, M.R.Huang, H.L.Zang, B.Yang, Y.Liu Angular distribution of elastic scattering induced by 17F on medium-mass target nuclei at energies near the Coulomb barrier NUCLEAR REACTIONS 89Y(17F, 17F), E=50, 59 MeV, [17F secondary beam from 1H(17O, n), E=7.6 MeV/nucleon primary reaction]; measured reaction products, 17F scattered particles, differential σ(θ, E) using DSSD and SSD detector telescopes at RIBLL facility in Lanzhou. 16F, 90Zr; calculated spectroscopic amplitudes for excited levels in the coupled reaction channels (CRC) formalism for one-proton transfer reactions using the Sao Paulo double-folding potential. Comparison with Continuum-discretized coupled-Channels (CDCC) calculations.
doi: 10.1103/PhysRevC.97.044618
2018ZH25 Ann.Nucl.Energy 119, 264 (2018) L.Zheng, Y.Yang, R.Liu, Z.Liu, M.Wang, L.Jiang, Z.W.Wen, K.Wang, X.Liu Determination of thorium fission rate based on 135I in thorium oxide cylinder bombarded by D-T fusion neutrons NUCLEAR REACTIONS 232Th(n, F)135I, 56Fe(n, p), 27Al(n, α), 197Au(n, 2n), E<20 MeV; measured reaction products, Eγ, Iγ; deduced fission rates along with reaction rates. Comparison with MCNP calculations employing ENDF/B-VII.0, ENDF/B-VII.1, JENDL-4.0, CENDL-3.1 library data.
doi: 10.1016/j.anucene.2018.05.012
2018ZH43 Phys.Rev. C 98, 034917 (2018) L.Zheng, D.-M.Zhou, Z.-B.Yin, Y.-L.Yan, G.Chen, X.Cai, B.-H.Sa Effect of single string structure and multiple string interaction on strange particle production in pp collisions at √ s = 7 TeV
doi: 10.1103/PhysRevC.98.034917
2017ZH23 Prog.Nucl.Energy 99, 73 (2017) L.Zheng, X.Lu, Y.Yang, R.Liu, S.Feng, L.Jiang, M.Wang, Z.Han Experimental and simulative studies of thorium fission rates on thorium oxide/depleted uranium cylinders with D-T neutrons NUCLEAR REACTIONS 232Th, 238U(n, F), E<14 MeV; measured fission products, En, In; deduced fission rates. Comparison with MCNP simulation employing ENDF/B-VII.0 and ENDF/B-VII.1 library data.
doi: 10.1016/j.pnucene.2017.04.021
2017ZH29 Eur.Phys.J. A 53, 124 (2017) L.Zheng, H.Li, H.Qin, Q.-Y.Shou, Z.-B.Yin Investigating the NCQ scaling of elliptic flow at LHC with a multiphase transport model
doi: 10.1140/epja/i2017-12312-8
2016AC02 Eur.Phys.J. A 52, 268 (2016) A.Accardi, J.L.Albacete, M.Anselmino, N.Armesto, E.C.Aschenauer, A.Bacchetta, D.Boer, W.K.Brooks, T.Burton, N.-B.Chang, W.-T.Deng, A.Deshpande, M.Diehl, A.Dumitru, R.Dupre, R.Ent, S.Fazio, H.Gao, V.Guzey, H.Hakobyan, Y.Hao, D.Hasch, R.Holt, T.Horn, M.Huang, A.Hutton, C.Hyde, J.Jalilian-Marian, S.Klein, B.Kopeliovich, Y.Kovchegov, K.Kumar, K.Kumericki, M.A.C.Lamont, T.Lappi, J.-H.Lee, Y.Lee, E.M.Levin, F.-L.Lin, V.Litvinenko, T.W.Ludlam, C.Marquet, Z.-E.Meziani, R.McKeown, A.Metz, R.Milner, V.S.Morozov, A.H.Mueller, B.Muller, D.Muller, P.Nadel-Turonski, H.Paukkunen, A.Prokudin, V.Ptitsyn, X.Qian, J.-W.Qiu, M.Ramsey-Musolf, T.Roser, F.Sabatie, R.Sassot, G.Schnell, P.Schweitzer, E.Sichtermann, M.Stratmann, M.Strikman, M.Sullivan, S.Taneja, T.Toll, D.Trbojevic, T.Ullrich, R.Venugopalan, S.Vigdor, W.Vogelsang, C.Weiss, B.-W.Xiao, F.Yuan, Y.-H.Zhang, L.Zheng Electron-Ion Collider: The next QCD frontier - Understanding the glue that binds us all
doi: 10.1140/epja/i2016-16268-9
2016HU01 Phys.Rev. C 93, 014621 (2016) S.P.Hu, G.L.Zhang, J.C.Yang, H.Q.Zhang, P.R.S.Gomes, J.Lubian, J.L.Ferreira, X.G.Wu, J.Zhong, C.Y.He, Y.Zheng, C.B.Li, G.S.Li, W.W.Qu, F.Wang, L.Zheng, L.Yu, Q.M.Chen, P.W.Luo, H.W.Li, Y.H.Wu, W.K.Zhou, B.J.Zhu, H.B.Sun One-neutron stripping processes to excited states of the 6Li + 96Zr reaction at near-barrier energies NUCLEAR REACTIONS 96Zr(6Li, X)97Zr, E=14-28 MeV; measured particle spectra of α, protons and deuterons from break-up process, Eγ, Iγ, γγ-coin, fusion σ(E) for one-neutron stripping reaction at HI-13 Tandem Accelerator of CIAE-Beijing. Breakup of 6Li. 97Zr; deduced levels, J, π. No evidence of two-neutron transfer. Comparison of fusion σ(E) with coupled reaction channel (CRC) calculations for the one-neutron stripping of 6Li. NUCLEAR STRUCTURE 96,97Zr; calculated levels, J, π, spectroscopic amplitudes using shell-model with NUSHELLX code; deduced coupling scheme between 96Zr target and 97Zr final nucleus. Comparison with experimental data.
doi: 10.1103/PhysRevC.93.014621
2016ZH10 Eur.Phys.J. A 52, 45 (2016) A systematic study of the initial state in heavy ion collisions based on the quark participant assumption
doi: 10.1140/epja/i2016-16045-x
2015GU16 Phys.Rev. C 92, 014615 (2015) C.L.Guo, G.L.Zhang, S.P.Hu, J.C.Yang, H.Q.Zhang, P.R.S.Gomes, J.Lubian, X.G.Wu, J.Zhong, C.Y.He, Y.Zheng, C.B.Li, G.S.Li, W.W.Qu, F.Wang, L.Zheng, L.Yu, Q.M.Chen, P.W.Luo, H.W.Li, Y.H.Wu, W.K.Zhou, B.J.Zhu, H.B.Sun Coupling effects on the fusion of 6Li + 154Sm at energies slightly above the Coulomb barrier NUCLEAR REACTIONS 154Sm(6Li, X)154Eu/156Gd/156Tb/157Tb, E=26-36 MeV; measured Eγ, Iγ from different evaporation residues formed via complete and incomplete fusion, complete and incomplete fusion σ(E), σ(E) for 3n+4n channels using on-line γ method at HI-13 Tandem Accelerator of CIAE-Beijing; deduced complete fusion suppression factor as a function of energy. Comparison with theoretical estimates using PACE2.
doi: 10.1103/PhysRevC.92.014615
2015HU03 Phys.Rev. C 91, 044619 (2015) S.P.Hu, G.L.Zhang, J.C.Yang, H.Q.Zhang, P.R.S.Gomes, J.Lubian, X.G.Wu, J.Zhong, C.Y.He, Y.Zheng, C.B.Li, G.S.Li, W.W.Qu, F.Wang, L.Zheng, L.Yu, Q.M.Chen, P.W.Luo, H.W.Li, Y.H.Wu, W.K.Zhou, B.J.Zhu, H.B.Sun Small suppression of the complete fusion of the 6Li+96Zr system at near-barrier energies NUCLEAR REACTIONS 96Zr(6Li, 2n), (6Li, 3n), (6Li, 4n), E=16-28 MeV; 96Zr(6Li, X)96Nb/98Mo/99Mo/100Mo, E=16-28 MeV; measured Eγ, Iγ, σ(E) for evaporation residues of 98,99,100Tc, complete, incomplete, and total fusion σ(E) for 96Nb and Mo isotopes using γ-activation method at Tandem Accelerator facility of CIAE-Beijing. Comparison with theoretical calculations using PACE2 code.
doi: 10.1103/PhysRevC.91.044619
2014WU08 Chin.Phys.Lett. 31, 092401 (2014) Z.-D.Wu, L.Yang, C.-J.Lin, H.-M.Jia, F.Yang, X.-X.Xu, H.-Q.Zhang, Z.-H.Liu, P.-F.Bao, L.-J.Sun, N.-R.Ma, L.Zheng A Sensitivity Test of Extracting the Optical Potential Parameters for 6He+209Bi from the Transfer Reaction 208Pb(7Li, 6He)209Bi NUCLEAR REACTIONS 208Pb(7Li, 6He), E=25.67 MeV; analyzed available data; calculated σ(θ); deduced optical model potential parameters.
doi: 10.1088/0256-307X/31/9/092401
2014ZH49 Eur.Phys.J. A 50, 189 (2014) L.Zheng, E.C.Aschenauer, J.H.Lee Determination of electron-nucleus collision geometry with forward neutrons
doi: 10.1140/epja/i2014-14189-3
2013ZH35 Nucl.Phys. A915, 70 (2013) L.Zheng, G.L.Zhang, J.C.Yang, W.W.Qu Calculation of half-lives of cluster decay by using proximity potential with a new universal function RADIOACTIVITY Z=56-102(8Be), (12C), (14C), (15N), (20O), (22O), (23F), (22Ne), (24Ne), (25Ne), (26Ne), (28Mg), (29Mg), (30Mg), (32Si), (34Si), (36S), (42S), (46Ar), (46Ca), (48Ca), (50Ca), (51Ti), (53Ti), (54Ti); calculated T1/2 using proximity potential with new universal function. Compared to data and other calculations.
doi: 10.1016/j.nuclphysa.2013.06.012
2007OM01 Eur.Phys.J. D 45, 91 (2007) J.P.Omtvedt, J.Alstad, T.Bjornstad, Ch.E.Dullmann, K.E.Gregorich, D.C.Hoffman, H.Nitsche, K.Opel, D.Polakova, F.Samadani, F.Schulz, G.Skarnemark, L.Stavsetra, R.Sudowe, L.Zheng Chemical properties of the transactinide elements studied in liquid phase with SISAK
doi: 10.1140/epjd/e2007-00214-6
2006ZH55 J. Electron Spectrosc. Relat. Phenom. 152, 143 (2006) L.Zheng, M.Cui, Y.Zhao, J.Zhao, K.Chen Total photoionization cross-sections of Ar and Xe in the energy range of 2.1-6.0keV NUCLEAR REACTIONS Ar, Xe(γ, X), E=2.1-6 keV; measured reaction products; deduced photoionization σ.
doi: 10.1016/j.elspec.2006.04.006
2004XU09 Nucl.Phys. A744, 347 (2004) X.-M.Xu, Y.Sun, A.-Q.Chen, L.Zheng Triple-gluon scatterings and early thermalization NUCLEAR REACTIONS 197Au(197Au, X), E(cm)=200 GeV/nucleon; calculated gluon momentum distributions.
doi: 10.1016/j.nuclphysa.2004.08.010
2000SC19 Nucl.Phys. A672, 99 (2000) F.Scarlassara, S.Beghini, G.Montagnoli, G.F.Segato, D.Ackermann, L.Corradi, C.J.Lin, A.M.Stefanini, L.F.Zheng Fusion of 40Ca + 124Sn Around the Coulomb Barrier NUCLEAR REACTIONS 124Sn(40Ca, X), E=143-168 MeV; measured fusion excitation function, σ(θ), evaporation-residue σ; deduced barrier distribution. Coupled-channels analysis.
doi: 10.1016/S0375-9474(00)00056-7
1999CO34 Nucl.Phys. (Supplement) A654, 849c (1999) L.Corradi, D.Ackermann, S.Beghini, C.J.Lin, G.Montagnoli, G.Pollarolo, F.Scarlassara, G.F.Segato, A.M.Stefanini, L.F.Zheng Low-Energy Heavy-Ion Reactions: A link between nuclear structure and reaction dynamics NUCLEAR REACTIONS 124Sn(40Ca, X), E=170 MeV; 124Sn(58Ni, X), E(cm)=153 MeV; 238U(64Ni, X), E=390 MeV; 90,96Zr(40Ca, X), E=152 MeV; analyzed transfer channel yields. 116,124Sn(40Ca, X), E(cm)=100-130 MeV; analyzed fusion σ.
doi: 10.1016/S0375-9474(00)88560-7
1998CO39 Nuovo Cim. 111A, 903 (1998) L.Corradi, A.M.Stefanini, D.Ackermann, C.Lin, L.Zheng, S.Beghini, G.Montagnoli, F.Scarlassara, G.F.Segato, G.Pollarolo Systematic Investigation of Weakly Populated Multinucleon Transfer Channels NUCLEAR REACTIONS 124Sn(48Ca, X), E=174 MeV; 238U(64Ni, X), E=390 MeV; analyzed transfer channels σ; deduced possible cluster effects. Comparison with model predictions.
doi: 10.1007/BF03035976
1998ST32 Nuovo Cim. 111A, 895 (1998) A.M.Stefanini, L.Corradi, D.Ackermann, C.J.Lin, L.F.Zheng, S.Beghini, G.Montagnoli, F.Scarlassara, G.F.Segato Fusion of 40Ca + 124Sn at Subbarrier Energies NUCLEAR REACTIONS 116,124Sn(40Ca, X), E(cm)=102-127 MeV; measured fusion-evaporation σ; deduced barrier distributions. Comparison with lighter systems.
doi: 10.1007/BF03035975
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