NSR Query Results


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NSR database version of May 21, 2024.

Search: Author = X.Du

Found 26 matches.

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2024AN05      Eur.Phys.J. A 60, 88 (2024)

A.Andronic, P.B.Gossiaux, P.Petreczky, R.Rapp, M.Strickland, J.P.Blaizot, N.Brambilla, P.Braun-Munzinger, B.Chen, S.Delorme, X.Du, M.A.Escobedo, E.G.Ferreiro, A.Jaiswal, A.Rothkopf, T.Song, J.Stachel, P.Vander Griend, R.Vogt, B.Wu, J.Zhao, X.Yao

Comparative study of quarkonium transport in hot QCD matter

doi: 10.1140/epja/s10050-024-01306-6
Citations: PlumX Metrics


2024DU01      Phys.Rev. C 109, 014901 (2024)

X.Du

Heavy quark drag and diffusion coefficients in the prehydrodynamic QCD plasma

doi: 10.1103/PhysRevC.109.014901
Citations: PlumX Metrics


2023CO02      Nucl.Phys. A1030, 122579 (2023)

M.Coquet, X.Du, J.-Y.Ollitrault, S.Schlichting, M.Winn

Transverse mass scaling of dilepton radiation off a quark-gluon plasma

doi: 10.1016/j.nuclphysa.2022.122579
Citations: PlumX Metrics


2023DU07      Chin.Phys.C 47, 074108 (2023)

X.-K.Du, P.Guo, X.-H.Wu, S.-Q.Zhang

Examination of machine learning for assessing physical effects: Learning the relativistic continuum mass table with kernel ridge regression

NUCLEAR STRUCTURE N<300; analyzed available data; deduced empirical proton-neutron interactions, odd-even mass differences, one- and two-neutron separation and binding energies extracted from the nuclear mass table obtained by the relativistic continuum Hartree-Bogoliubov theory. Comparison with available data.

doi: 10.1088/1674-1137/acc791
Citations: PlumX Metrics


2023GU12      Phys.Rev. C 108, 014319 (2023)

P.Guo, C.Pan, Y.C.Zhao, X.K.Du, S.Q.Zhang

Prolate-shape dominance in atomic nuclei within the deformed relativistic Hartree-Bogoliubov theory in continuum

NUCLEAR STRUCTURE 134,136,138,140,142,144,146,148,150,152,154,156,158,160,162,164,166,168,170,172,174,178Te, 136,138,140,142,144,146,148,150,152,154,156,158,160,162,164,166,168,170,172,174,178,180Xe, 138,140,142,144,146,148,150,152,154,156,158,160,162,164,166,168,170,172,174,178,180,182Ba; calculated quadrupole deformation, potential-energy curves, single-neutron energies, pairing correlations. Calculations with deformed relativistic Hartree-Bogoliubov theory in continuum (DRHBc).

doi: 10.1103/PhysRevC.108.014319
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2022DU06      Phys.Rev. C 105, 035803 (2022)

X.Du, A.W.Steiner, J.W.Holt

Hot and dense matter equation of state probability distributions for astrophysical simulations

doi: 10.1103/PhysRevC.105.035803
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2022LI28      Few-Body Systems 63, 43 (2022)

W.P.Liu, Z.H.Li, J.J.He, X.D.Tang, G.Lian, J.Su, Y.P.Shen, Z.An, F.Q.Chao, J.J.Chang, L.H.Chen, H.Chen, X.J.Chen, Y.H.Chen, Z.J.Chen, B.Q.Cui, X.C.Du, X.Fang, C.B.Fu, L.Gan, B.Guo, Z.Y.Han, X.Y.Guo, G.Z.He, J.R.He, A.Heger, S.Q.Hou, H.X.Huang, N.Huang, B.L.Jia, L.Y.Jiang, S.Kubono, J.M.Li, M.C.Li, K.A.Li, E.T.Li, T.Li, Y.J.Li, M.Lugaro, X.B.Luo, H.Y.Ma, S.B.Ma, D.M.Mei, W.Nan, W.K.Nan, N.C.Qi, Y.Z.Qian, J.C.Qin, J.Ren, C.S.Shang, L.T.Sun, W.L.Sun, W.P.Tan, I.Tanihata, S.Wang, P.Wang, Y.B.Wang, Q.Wu, S.W.Xu, S.Q.Yan, L.T.Yang, Y.Yang, X.Q.Yu, Q.Yue, S.Zeng, L.Zhang, H.Zhang, H.Y.Zhang, L.Y.Zhang, N.T.Zhang, P.Zhang, Q.W.Zhang, T.Zhang, X.P.Zhang, X.Z.Zhang, W.Zhao, J.F.Zhou, Y.Zho

Progress of Underground Nuclear Astrophysics Experiment JUNA in China

NUCLEAR REACTIONS 12C(α, γ), 13C(α, n), 25Mg(p, γ), 19F(p, α), E(cm)<600 keV; measured reaction products; deduced yields near the Gamow window. Comparison with available data.

doi: 10.1007/s00601-022-01735-3
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2021DU18      Phys.Rev.Lett. 127, 122301 (2021)

X.Du, S.Schlichting

Equilibration of the Quark-Gluon Plasma at Finite Net-Baryon Density in QCD Kinetic Theory

doi: 10.1103/PhysRevLett.127.122301
Citations: PlumX Metrics


2021WU04      Eur.Phys.J. A 57, 122 (2021); Erratum Eur.Phys.J. A 57, 314 (2021)

B.Wu, X.Du, M.Sibila, R.Rapp

X(3872) transport in heavy-ion collisions

doi: 10.1140/epja/s10050-021-00435-6
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2019DU10      Phys.Rev. C 99, 025803 (2019)

X.Du, A.W.Steiner, J.W.Holt

Hot and dense homogeneous nucleonic matter constrained by observations, experiment, and theory

doi: 10.1103/PhysRevC.99.025803
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2019GA36      J.Phys.(London) G46, 103001 (2019)

S.Gandolfi, J.Lippuner, A.W.Steiner, I.Tews, X.Du, M.Al-Mamun

From the microscopic to the macroscopic world: from nucleons to neutron stars

doi: 10.1088/1361-6471/ab29b3
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2019SH11      Phys.Rev. C 99, 025805 (2019)

Y.P.Shen, B.Guo, Z.H.Li, Y.J.Li, D.Y.Pang, S.Adhikari, Z.D.An, J.Su, S.Q.Yan, X.C.Du, Q.W.Fan, L.Gan, Z.Y.Han, D.H.Li, E.T.Li, X.Y.Li, G.Lian, J.C.Liu, T.L.Ma, C.J.Pei, Y.Su, Y.B.Wang, S.Zeng, Y.Zhou, W.P.Liu

Astrophysical SE2 factor of the 12C (α, γ)16O reaction through the 12C(11B, 7Li)16O transfer reaction

NUCLEAR REACTIONS 12C(11B, 7Li), (11B, 11B), E=50 MeV; 16O(7Li, 7Li), E=26 MeV; measured charged-particle spectra, differential σ(θ) using the Q3D magnetic spectrograph at the HI-13 tandem accelerator of the CIAE-Beijing. 12C(α, γ), E(cm)<5 MeV; deduced astrophysical SE2(300) factor of the ground state. 16O; deduced asymptotic normalization coefficient (ANC) and reduced α width of the 6.917-MeV level from finite-range distorted wave Born approximation (FRDWBA) and coupled-reaction-channel (CRC) analysis using FRESCO code. Comparison with previous experimental values, and with theoretical model predictions. R-matrix analysis of scattering data.

doi: 10.1103/PhysRevC.99.025805
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetS0213. Data from this article have been entered in the XUNDL database. For more information, click here.


2018WA12      Nucl.Phys. A976, 46 (2018)

Y.Wang, L.Yang, X.Du, N.Liu, L.Qiao, W.Zhang

Universal scaling of the pion, kaon and proton pT spectra in PbPb collisions at 2.76 TeV

doi: 10.1016/j.nuclphysa.2018.05.003
Citations: PlumX Metrics


2018YA12      Eur.Phys.J. A 54, 54 (2018)

L.Yang, Y.Wang, W.Hao, N.Liu, X.Du, W.Zhang

Universal scaling of strange particle pT spectra in pp collisions

doi: 10.1140/epja/i2018-12484-7
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2017DU10      Nucl.Phys. A967, 904 (2017)

X.Du, M.He, R.Rapp

In-Medium Bottomonium Production in Heavy-Ion Collisions

doi: 10.1016/j.nuclphysa.2017.05.079
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2017DU13      Phys.Rev. C 96, 054901 (2017)

X.Du, M.He, R.Rapp

Color screening and regeneration of bottomonia in high-energy heavy-ion collisions

doi: 10.1103/PhysRevC.96.054901
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2017RA22      Nucl.Phys. A967, 216 (2017)

R.Rapp, X.Du

Theoretical Perspective on Quarkonia from SPS via RHIC to LHC

doi: 10.1016/j.nuclphysa.2017.05.097
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2016LI51      Chin.Phys.C 40, 114104 (2016)

E.T.Li, B.Guo, Z.H.Li, Y.B.Wang, Y.J.Li, Z.D.Wu, J.Su, D.Y.Pang, X.X.Bai, X.C.Du, Q.W.Fan, L.Gan, Z.Y.Han, X.Hao, S.P.Hu, J.J.He, L.Jing, S.J.Jin, L.Li, X.Y.Li, Z.C.Li, G.Lian, J.C.Liu, Q.Luo, L.H.Qiao, Y.P.Shen, H.B.Sun, S.Q.Yan, X.Q.Yu, S.Zeng, D.H.Zhang, L.Y.Zhang, W.J.Zhang, Y.Zhou, W.P.Liu

Radii of the bound states in 16N from the asymptotic normalization coefficients

RADIOACTIVITY 16N(n) [from 15N(7Li, 6Li)16N, E=44 MeV]; analyzed available data; deduced asymptotic normalization coefficients (ANCs), rms radii of the valence neutron, probabilities of the valence neutron staying out of the core potentials.

doi: 10.1088/1674-1137/40/11/114104
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Data from this article have been entered in the XUNDL database. For more information, click here.


2016MA02      Nucl.Phys. A945, 153 (2016)

W.Mao, X.Wang, X.Du, Z.Lu, B.-Q.Ma

On the cos φh asymmetry in electroproduction of pions in double longitudinally polarized process

doi: 10.1016/j.nuclphysa.2015.10.004
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2016SU10      Phys.Lett. B 756, 323 (2016)

J.Su, W.P.Liu, N.T.Zhang, Y.P.Shen, Y.H.Lam, N.A.Smirnova, M.MacCormick, J.S.Wang, L.Jing, Z.H.Li, Y.B.Wang, B.Guo, S.Q.Yan, Y.J.Li, S.Zeng, G.Lian, X.C.Du, L.Gan, X.X.Bai, Z.C.Gao, Y.H.Zhang, X.H.Zhou, X.D.Tang, J.J.He, Y.Y.Yang, S.L.Jin, P.Ma, J.B.Ma, M.R.Huang, Z.Bai, Y.J.Zhou, W.H.Ma, J.Hu, S.W.Xu, S.B.Ma, S.Z.Chen, L.Y.Zhang, B.Ding, Z.H.Li, G.Audi

Revalidation of the isobaric multiplet mass equation at A = 53, T = 3/2

RADIOACTIVITY 53Ni(EC), (ECp) [from Be(58Ni, X)53Ni, E=68.3 MeV/nucleon]; measured decay products, Eγ, Iγ; deduced T1/2, level scheme, J, π, isobaric analog state, mass excess, explanation of unexpected deviation from the isobaric multiplet mass equation (IMME) at A=53, T=3/2.

doi: 10.1016/j.physletb.2016.03.024
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Data from this article have been entered in the XUNDL database. For more information, click here.


2015DU12      Nucl.Phys. A943, 147 (2015)

X.Du, R.Rapp

Sequential regeneration of charmonia in heavy-ion collisions

doi: 10.1016/j.nuclphysa.2015.09.006
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2015SH16      Phys.Rev. C 91, 047304 (2015)

Y.P.Shen, W.P.Liu, J.Su, N.T.Zhang, L.Jing, Z.H.Li, Y.B.Wang, B.Guo, S.Q.Yan, Y.J.Li, S.Zeng, G.Lian, X.C.Du, L.Gan, X.X.Bai, J.S.Wang, Y.H.Zhang, X.H.Zhou, X.D.Tang, J.J.He, Y.Y.Yang, S.L.Jin, P.Ma, J.B.Ma, M.R.Huang, Z.Bai, Y.J.Zhou, W.H.Ma, J.Hu, S.W.Xu, S.B.Ma, S.Z.Chen, L.Y.Zhang, B.Ding, Z.H.Li

Measurement of the 52Fe mass via the precise proton-decay energy of 53Com

RADIOACTIVITY 53mCo(p)[from 9Be(58Ni, X), E=68.3 MeV/nucleon]; 41Ti(β+p); measured Ep, Ip, at RIBLL-HIRFL-Lanzhou facility; deduced mass excess of 52Fe and compared with AME-2012 evaluation. 51Fe, 52Co(β+); measured half-lives and compared with evaluated data in ENSDF.

ATOMIC MASSES 52Fe; deduced mass excess from Q value of proton decay of 3174.1 keV, 19/2- isomer in 53Co determined from measured proton energy. Comparison with previous experimental results.

doi: 10.1103/PhysRevC.91.047304
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Data from this article have been entered in the XUNDL database. For more information, click here.


2014GU02      Phys.Rev. C 89, 012801 (2014)

B.Guo, Z.H.Li, Y.J.Li, J.Su, D.Y.Pang, S.Q.Yan, Z.D.Wu, E.T.Li, X.X.Bai, X.C.Du, Q.W.Fan, L.Gan, J.J.He, S.J.Jin, L.Jing, L.Li, Z.C.Li, G.Lian, J.C.Liu, Y.P.Shen, Y.B.Wang, X.Q.Yu, S.Zeng, L.Y.Zhang, W.J.Zhang, W.P.Liu

Spectroscopic factors for low-lying 16N levels and the astrophysical 15N(n, γ)16N

NUCLEAR REACTIONS 15N(7Li, 6Li)16N, E=44 MeV; measured 6Li spectrum, σ(θ) using Q3D magnetic spectrograph at CIAE's HI-13 tandem accelerator facility. 16N; deduced levels, J, π, configurations, spectroscopic factors for ground and first three excited states. DWBA analysis. Comparison with shell model calculations. 15N(n, γ)16N, at T=0.01-3 GK; deduced astrophysical reaction rates. Comparison with previous experimental and theoretical results.

doi: 10.1103/PhysRevC.89.012801
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetS0095. Data from this article have been entered in the XUNDL database. For more information, click here.


2014WU03      Phys.Rev. C 89, 054315 (2014)

Z.D.Wu, B.Guo, Z.H.Li, Y.J.Li, J.Su, D.Y.Pang, S.Q.Yan, E.T.Li, X.X.Bai, X.C.Du, Q.W.Fan, L.Gan, J.J.He, S.J.Jin, L.Jing, L.Li, Z.C.Li, G.Lian, J.C.Liu, Y.P.Shen, Y.B.Wang, X.Q.Yu, S.Zeng, D.H.Zhang, L.Y.Zhang, W.J.Zhang, W.P.Liu

Proton widths of the low-lying 16F states from the 15N(7Li, 6Li)16N reaction

NUCLEAR REACTIONS 15N(7Li, 7Li), (7Li, 6Li), E=34.5, 44 MeV; measured particle spectra, elastic and inelastic σ(θ) using Q3D magnetic spectrograph at CIAE facility. 16N; deduced levels, J, π, asymptotic normalization coefficients (ANCs), spectroscopic factors. DWBA analysis. 16F; deduced proton and single-particle widths, spectroscopic factors for first four levels from mirror analogy with 16N. Comparison with previous experimental results and compilation.

doi: 10.1103/PhysRevC.89.054315
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetS0095. Data from this article have been entered in the XUNDL database. For more information, click here.


2009FE09      Chin.Phys.C 33, Supplement 1, 52 (2009)

S.-Q.Feng, X.-C.Du

Dependence of multiplicity and transverse energy distributions on nuclear geometry at RHIC

doi: 10.1088/1674-1137/33/S1/017
Citations: PlumX Metrics


2003MU09      Nucl.Instrum.Methods Phys.Res. B204, 536 (2003)

P.Muller, L.-B.Wang, K.Bailey, G.W.F.Drake, X.Du, J.Greene, A.M.Heinz, R.J.Holt, D.Henderson, R.V.Janssens, C.-L.Jiang, C.Law, Z.-T.Lu, I.D.Moore, T.P.O'Connor, R.C.Pardo, M.Paul, T.Pennington, K.E.Rehm, J.P.Schiffer

Towards measuring the charge radius of 6He and 8He

RADIOACTIVITY 6He(β-) [from 12C(7Li, 6He)]; measured Eβ, T1/2. Magneto-optical trap for charge radius measurement.

doi: 10.1016/S0168-583X(02)02128-6
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Note: The following list of authors and aliases matches the search parameter X.Du: , X.C.DU, X.K.DU