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NSR database version of April 11, 2024.

Search: Author = W.Li

Found 79 matches.

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2024LI14      J.Phys.(London) G51, 015103 (2024)

W.F.Li, X.Y.Zhang, Y.F.Niu, Z.M.Niu

Comparative study of neural network and model averaging methods in nuclear β-decay half-life predictions

NUCLEAR STRUCTURE Z<100; analyzed β-decay T_1/2 using the two-hidden-layer neural network and compared with the model averaging method; deduced half-life predictions of the neural network.

doi: 10.1088/1361-6471/ad0314
Citations: PlumX Metrics

2024ZH06      Nucl.Phys. A1043, 122820 (2024)

X.Y.Zhang, W.F.Li, J.Y.Fang, Z.M.Niu

Nuclear mass predictions with the naive Bayesian model averaging method

NUCLEAR STRUCTURE Z=10-110; analyzed available data; deduced atomic masses using a naive Bayesian model averaging (NBMA) method.

doi: 10.1016/j.nuclphysa.2024.122820
Citations: PlumX Metrics

2023BA11      Phys.Rev. C 107, 064908 (2023)

A.Baty, P.Gardner, W.Li

Novel observables for exploring QCD collective evolution and quantum entanglement within individual jets

doi: 10.1103/PhysRevC.107.064908
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2023LI02      Nucl.Instrum.Methods Phys.Res. A1047, 167783 (2023)

X.Li, T.Jiao, W.Li, Q.Zheng, N.Ni, S.Zhao, S.Zhao, F.Cheng, L.Yang, H.Yu, X.Qin, K.Xiao, S.Li, M.Lin, S.Wang, Y.Liu

Spectrum measurement of secondary neutron induced by ⁹Be (p, n) reaction in low-Earth orbit

NUCLEAR REACTIONS ⁹Be(p, n), E not given; measured reaction products, En, In; deduced spectrum of secondary neutron in low-Earth orbit.

doi: 10.1016/j.nima.2022.167783
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2022LI48      Phys.Rev. A 106, 023317 (2022)

W.-X.Li, Y.-D.Chen, Y.-T.Sun, S.Tung, P.S.Julienne

Feshbach resonances in an ultracold ⁷Li-¹³³Cs Bose-Bose mixture

ATOMIC PHYSICS ⁷Li, ¹³³Cs; analyzed available data; calculated an accurate characterization of the scattering and bound-state properties of the mixtures in coupled-channel approach; deduced assignments for six of the resonances to s-wave channels and the rest to p-wave channels.

doi: 10.1103/PhysRevA.106.023317
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2022LI63      Eur.Phys.J. A 58, 218 (2022)

W.Li, S.Frauendorf, M.A.Caprio

Triaxiality explored by an odd quasi-particle

NUCLEAR STRUCTURE ^{101,103,105,107,109,111,113,115}Pd, ^{101,103,105,107,109,111,113,115}Rh, ^{107,109,111,113}Ru; calculated energy levels, B(E2) considering soft and rigid triaxial cores; deduced triaxiality of odd-mass nuclei by coupling a quasiparticle to an even-even core through the core-quasiparticle coupling model.

doi: 10.1140/epja/s10050-022-00871-y
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2021AB12      Phys.Rev. C 104, L061901 (2021)

M.S.Abdallah, B.E.Aboona, J.Adam, L.Adamczyk, J.R.Adams, J.K.Adkins, G.Agakishiev, I.Aggarwal, M.M.Aggarwal, Z.Ahammed, I.Alekseev, D.M.Anderson, A.Aparin, E.C.Aschenauer, M.U.Ashraf, F.G.Atetalla, A.Attri, G.S.Averichev, V.Bairathi, W.Baker, J.G.Ball Cap, K.Barish, A.Behera, R.Bellwied, P.Bhagat, A.Bhasin, J.Bielcik, J.Bielcikova, I.G.Bordyuzhin, J.D.Brandenburg, A.V.Brandin, I.Bunzarov, J.Butterworth, X.Z.Cai, H.Caines, M.Calderon de la Barca Sanchez, D.Cebra, I.Chakaberia, P.Chaloupka, B.K.Chan, F.-H.Chang, Z.Chang, N.Chankova-Bunzarova, A.Chatterjee, S.Chattopadhyay, D.Chen, J.Chen, J.H.Chen, X.Chen, Z.Chen, J.Cheng, M.Chevalier, S.Choudhury, W.Christie, X.Chu, H.J.Crawford, M.Csanad, M.Daugherity, T.G.Dedovich, I.M.Deppner, A.A.Derevschikov, A.Dhamija, L.Di Carlo, L.Didenko, P.Dixit, X.Dong, J.L.Drachenberg, E.Duckworth, J.C.Dunlop, N.Elsey, J.Engelage, G.Eppley, S.Esumi, O.Evdokimov, A.Ewigleben, O.Eyser, R.Fatemi, F.M.Fawzi, S.Fazio, P.Federic, J.Fedorisin, C.J.Feng, Y.Feng, P.Filip, E.Finch, Y.Fisyak, A.Francisco, C.Fu, L.Fulek, C.A.Gagliardi, T.Galatyuk, F.Geurts, N.Ghimire, A.Gibson, K.Gopal, X.Gou, D.Grosnick, A.Gupta, W.Guryn, A.I.Hamad, A.Hamed, Y.Han, S.Harabasz, M.D.Harasty, J.W.Harris, H.Harrison, S.He, W.He, X.H.He, Y.He, S.Heppelmann, S.Heppelmann, N.Herrmann, E.Hoffman, L.Holub, Y.Hu, H.Huang, H.Z.Huang, S.L.Huang, T.Huang, X.Huang, Y.Huang, T.J.Humanic, G.Igo, D.Isenhower, W.W.Jacobs, C.Jena, A.Jentsch, Y.Ji, J.Jia, K.Jiang, X.Ju, E.G.Judd, S.Kabana, M.L.Kabir, S.Kagamaster, D.Kalinkin, K.Kang, D.Kapukchyan, K.Kauder, H.W.Ke, D.Keane, A.Kechechyan, M.Kelsey, Y.V.Khyzhniak, D.P.Kikola, C.Kim, B.Kimelman, D.Kincses, I.Kisel, A.Kiselev, A.G.Knospe, H.S.Ko, L.Kochenda, L.K.Kosarzewski, L.Kramarik, P.Kravtsov, L.Kumar, S.Kumar, R.Kunnawalkam Elayavalli, J.H.Kwasizur, R.Lacey, S.Lan, J.M.Landgraf, J.Lauret, A.Lebedev, R.Lednicky, J.H.Lee, Y.H.Leung, C.Li, C.Li, W.Li, X.Li, Y.Li, X.Liang, Y.Liang, R.Licenik, T.Lin, Y.Lin, M.A.Lisa, F.Liu, H.Liu, H.Liu, P.Liu, T.Liu, X.Liu, Y.Liu, Z.Liu, T.Ljubicic, W.J.Llope, R.S.Longacre, E.Loyd, N.S.Lukow, X.F.Luo, L.Ma, R.Ma, Y.G.Ma, N.Magdy, D.Mallick, S.Margetis, C.Markert, H.S.Matis, J.A.Mazer, N.G.Minaev, S.Mioduszewski, B.Mohanty, M.M.Mondal, I.Mooney, D.A.Morozov, A.Mukherjee, M.Nagy, J.D.Nam, Md.Nasim, K.Nayak, D.Neff, J.M.Nelson, D.B.Nemes, M.Nie, G.Nigmatkulov, T.Niida, R.Nishitani, L.V.Nogach, T.Nonaka, A.S.Nunes, G.Odyniec, A.Ogawa, S.Oh, V.A.Okorokov, B.S.Page, R.Pak, J.Pan, A.Pandav, A.K.Pandey, Y.Panebratsev, P.Parfenov, B.Pawlik, D.Pawlowska, H.Pei, C.Perkins, L.Pinsky, R.L.Pinter, J.Pluta, B.R.Pokhrel, G.Ponimatkin, J.Porter, M.Posik, V.Prozorova, N.K.Pruthi, M.Przybycien, J.Putschke, H.Qiu, A.Quintero, C.Racz, S.K.Radhakrishnan, N.Raha, R.L.Ray, R.Reed, H.G.Ritter, M.Robotkova, O.V.Rogachevskiy, J.L.Romero, D.Roy, L.Ruan, J.Rusnak, N.R.Sahoo, H.Sako, S.Salur, J.Sandweiss, S.Sato, W.B.Schmidke, N.Schmitz, B.R.Schweid, F.Seck, J.Seger, M.Sergeeva, R.Seto, P.Seyboth, N.Shah, E.Shahaliev, P.V.Shanmuganathan, M.Shao, T.Shao, A.I.Sheikh, D.Shen, S.S.Shi, Y.Shi, Q.Y.Shou, E.P.Sichtermann, R.Sikora, M.Simko, J.Singh, S.Singha, M.J.Skoby, N.Smirnov, Y.Sohngen, W.Solyst, P.Sorensen, H.M.Spinka, B.Srivastava, T.D.S.Stanislaus, M.Stefaniak, D.J.Stewart, M.Strikhanov, B.Stringfellow, A.A.P.Suaide, M.Sumbera, B.Summa, X.M.Sun, X.Sun, Y.Sun, Y.Sun, B.Surrow, D.N.Svirida, Z.W.Sweger, P.Szymanski, A.H.Tang, Z.Tang, A.Taranenko, T.Tarnowsky, J.H.Thomas, A.R.Timmins, D.Tlusty, T.Todoroki, M.Tokarev, C.A.Tomkiel, S.Trentalange, R.E.Tribble, P.Tribedy, S.K.Tripathy, T.Truhlar, B.A.Trzeciak, O.D.Tsai, Z.Tu, T.Ullrich, D.G.Underwood, I.Upsal, G.Van Buren, J.Vanek, A.N.Vasiliev, I.Vassiliev, V.Verkest, F.Videbaek, S.Vokal, S.A.Voloshin, F.Wang, G.Wang, J.S.Wang, P.Wang, Y.Wang, Y.Wang, Z.Wang, J.C.Webb, P.C.Weidenkaff, L.Wen, G.D.Westfall, H.Wieman, S.W.Wissink, J.Wu, Y.Wu, B.Xi, Z.G.Xiao, G.Xie, W.Xie, H.Xu, N.Xu, Q.H.Xu, Y.Xu, Z.Xu, Z.Xu, C.Yang, Q.Yang, S.Yang, Y.Yang, Z.Ye, Z.Ye, L.Yi, K.Yip, Y.Yu, H.Zbroszczyk, W.Zha, C.Zhang, D.Zhang, J.Zhang, S.Zhang, S.Zhang, X.P.Zhang, Y.Zhang, Y.Zhang, Y.Zhang, Z.J.Zhang, Z.Zhang, Z.Zhang, J.Zhao, C.Zhou, X.Zhu, M.Zurek, M.Zyzak

Global Λ-hyperon polarization in Au+Au collisions at √ s_NN = 3 GeV

doi: 10.1103/PhysRevC.104.L061901
Citations: PlumX Metrics

2021CH46      J.Radioanal.Nucl.Chem. 329, 1393 (2021)

C.Chu, G.Hu, X.Guo, Q.Liu, W.Li, F.Hao, Q.Xiang, J.Zeng, Y.Zhang

Half-life determination of ⁸⁸Kr based on rapid Kr-Xe separation

RADIOACTIVITY ⁸⁸Kr(β^-) [from U(n, F), E thermal]; measured decay products, Eγ, Iγ; deduced γ-ray energies, T_1/2 and uncertainties. Comparison with available data.

doi: 10.1007/s10967-021-07881-y
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Data from this article have been entered in the XUNDL database. For more information, click here.

2021GA33      Eur.Phys.J. A 57, 342 (2021)

C.A.Gayoso, L.Bibrzycki, S.Diehl, S.Heppelmann, D.W.Higinbotham, G.M.Huber, S.J.D.Kay, S.R.Klein, J.M.Laget, W.B.Li, V.Mathieu, K.Park, R.J.Perry, B.Pire, K.Semenov-Tian-Shansky, A.Stanek, J.R.Stevens, L.Szymanowski, C.Weiss, B.-G.Yu

Progress and opportunities in backward angle (u-channel) physics

doi: 10.1140/epja/s10050-021-00625-2
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2021JE05      Eur.Phys.J. A 57, 308 (2021)

S.Jehangir, G.H.Bhat, J.A.Sheikh, S.Frauendorf, W.Li, R.Palit, N.Rather

Triaxial projected shell model study of Formula-bands in atomic nuclei

NUCLEAR STRUCTURE ^154,156Gd, ^{156,158,160,162}Dy, ^{164,166,168,170}Er, ¹⁸⁰Hf, ²³²Th, ²³⁸U, ^104,106,108Mo, ¹⁰⁸Ru, ¹¹⁰Ru, ¹¹²Ru, ¹¹⁴Ru; calculated stagerring parameters, J, γ-bands. Triaxial projected shell model (TPSM) approach.

doi: 10.1140/epja/s10050-021-00620-7
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2021LI18      Geochim.Cosmochim.Act. 299, 1 (2021)

W.Li, Y.Cheng, L.Feng, J.Niu, Y.Liu, V.A.Skuratov, M.V.Zdorovets, L.A.Boatner, R.C.Ewing

Alpha-decay induced shortening of fission tracks simulated by in situ ion irradiation

doi: 10.1016/j.gca.2021.01.022
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2021ZH62      Nucl.Phys. A1016, 122317 (2021)

S.-H.Zheng, W.Li, C.-W.Gou, G.-F.Wu, D.Yao, X.-F.Zhang, J.-S.Li, S.Kodaira, D.-H.Zhang

Measurement of cross sections for charge pickup by ¹²C on elemental targets at 400 MeV/n

NUCLEAR REACTIONS H, C, ²⁷Al, Cu, Pb(¹²C, ¹²N), E=398 MeV/nucleon; measured reaction products; deduced nuclear charge pickup σ. Comparison with available data.

doi: 10.1016/j.nuclphysa.2021.122317
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetE2716.

2020CH42      Appl.Radiat.Isot. 166, 109366 (2020)

C.Chu, Q.Xiang, J.Zeng, Y.Zhang, X.Guo, F.Hao, G.Hu, J.Zhang, L.Yang, Q.Liu, W.Li, L.Cui, Y.Liu

Half-life determination of ⁸⁸Rb using the 4πβ and 4πβγ-coincidence methods

RADIOACTIVITY ⁸⁸Rb(β^-) [from U(n, X), E thermal]; measured decay products, Eγ, Iγ, Eβ, Iβ, β-γ-coin.; deduced T_1/2 with uncertainties. Comparison with available data.

doi: 10.1016/j.apradiso.2020.109366
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Data from this article have been entered in the XUNDL database. For more information, click here.

2020FA03      Eur.Phys.J. A 56, 11 (2020)

B.-C.Fang, W.-Y.Li, C.-F.Chen, J.-W.Cui, X.-R.Zhou, Y.-Y.Cheng

Impurity effects of Λ hyperons on p_Λorbitals

doi: 10.1140/epja/s10050-019-00006-w
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2020HU02      Phys.Rev. C 101, 021901 (2020)

S.Huang, Z.Chen, W.Li, J.Jia

Disentangling contributions to small-system collectivity via scans of light nucleus-nucleus collisions

doi: 10.1103/PhysRevC.101.021901
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2020RO09      J.Phys.(London) G47, 065103 (2020)

J.Rotureau, G.Potel, W.Li, F.M.Nunes

Merging ab initio theory and few-body approach for (d, p) reactions

NUCLEAR REACTIONS ^40,48,52,54Ca(d, p), E=10 MeV; calculated σ(θ). Comparison with available data.

doi: 10.1088/1361-6471/ab8530
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2019BI06      Eur.Phys.J. A 55, 159 (2019)

S.Biswas, R.Palit, S.Frauendorf, U.Garg, W.Li, G.H.Bhat, J.A.Sheikh, J.Sethi, S.Saha, P.Singh, D.Choudhury, J.T.Matta, A.D.Ayangeakaa, W.A.Dar, V.Singh, S.Sihotra

Longitudinal wobbling in ¹³³La

NUCLEAR REACTIONS ¹²⁶Te(¹¹B, 4n)¹³³La, E=52 MeV; measured Eγ, Iγ(θ), γγ-coin, γγγ-coin using INGA (21 Compton suppressed HPGe coupled with digital data acquisition system); deduced ¹³³La lower levels, J, π, γ transitions, angular distribution plots for pure 758, 874, 982 keV M1 transitions in coincidence with 445 keV transition, perpendicular and parallel spectra, a₃₂-a₄ contour plots, Direction Correlation from Oriented states (DCO) ratio spectra, B(E2)_in, B(E2)_out, B(M1)_out γ-transitions strengths, mixing ratios, wobbling bands with n_ω=0 and 1 with interconnecting E2 transitions, increase of wobbling of frequency; calculated ¹³³La angular distribution plots, a₂-a₄ contour plots, Direction Correlation from Oriented states (DCO) using Quasiparticle-Triaxial-Rotor (QTR) model with and without Harmonic Frozen Approximation (HFA) theory, Tilted Axis Cranking (TAC) model; deduced longitudinal wobbling for ¹³³La. Data compared with recently published ¹³³La study using ¹¹⁶Cd(²²Ne, x) at Gammasphere.

doi: 10.1140/epja/i2019-12856-5
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Data from this article have been entered in the XUNDL database. For more information, click here.

2019LI22      Chin.Phys.C 43, 064001 (2019)

C.-Q.Liu, Z.Wei, C.Han, C.Huang, Z.-W.Huang, Z.-W.Ma, S.-J.Zhang, S.-Hu.Peng, W.-M.Li, X.-H.Bai, J.-R.Wang, X.-L.Lu, Y.Zhang, D.-P.Xu, X.-D.Su, Z.-E.Yao

Monte Carlo simulation of fast neutron-induced fission of ²³⁷Np

NUCLEAR REACTIONS ²³⁷Np, ²³²Th, ^235,238U, ²³⁹Pu(n, F), E=0.50, 2, 4, 5, 59.9, 5.04, 160, 4.48 MeV; calculated pre-neutron emission fission-fragment mass distribution using GEANT4. Comparison with experimental data.

doi: 10.1088/1674-1137/43/6/064001
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2019LI46      Phys.Rev.Lett. 123, 182501 (2019)

W.B.Li, for the Jefferson Lab F{-pi} Collaboration

Unique Access to u-Channel Physics: Exclusive Backward-Angle Omega Meson Electroproduction

doi: 10.1103/PhysRevLett.123.182501
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2019SE06      Phys.Lett. B 792, 170 (2019), Erratum Phys.Lett. B 820, 136556 (2021)

N.Sensharma, U.Garg, S.Zhu, A.D.Ayangeakaa, S.Frauendorf, W.Li, G.H.Bhat, J.A.Sheikh, M.P.Carpenter, Q.B.Chen, J.L.Cozzi, S.S.Ghugre, Y.K.Gupta, D.J.Hartley, K.B.Howard, R.V.F.Janssens, F.G.Kondev, T.C.McMaken, R.Palit, J.Sethi, D.Seweryniak, R.P.Singh

Two-phonon wobbling in ¹³⁵Pr

NUCLEAR STRUCTURE ¹³⁵Pr; analyzed available data; deduced wobbling. Comparison with theoretical calculations in the framework of the quasiparticle triaxial rotor and triaxial projected shell models.

doi: 10.1016/j.physletb.2019.03.038
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2019WE13      Eur.Phys.J. A 55, 162 (2019)

Z.Wei, C.Han, S.H.Peng, X.H.Bai, C.Q.Liu, Z.W.Ma, Z.W.Huang, S.J.Zhang, W.M.Li, Y.Yang, Z.E.Yao, W.S.Wu, Y.Zhang, X.L.Lu, J.R.Wang, X.D.Su, D.P.Xu

Physical design and evaluation of a high-intensity accelerator-based D-D/D-T fusion neutron source

doi: 10.1140/epja/i2019-12848-5
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2018KH02      Phys.Rev. C 97, 024905 (2018)

D.Kharzeev, Z.Tu, A.Zhang, W.Li

Effect of the fluctuating proton size on the study of the chiral magnetic effect in proton-nucleus collisions

doi: 10.1103/PhysRevC.97.024905
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2018LI12      Phys.Rev. C 97, 034302 (2018)

W.-Y.Li, J.-W.Cui, X.-R.Zhou

Structure of ⁹_ΛBe and ¹⁰_ΛΛBe using the beyond-mean-field Skyrme-Hartree-Fock approach

NUCLEAR STRUCTURE ⁸Be, ⁹Be, ¹⁰Be; calculated potential energy surfaces for ⁸Be+Λ, angular momentum projected energy curves for ⁸be and hypernucleus ⁹Be, density distributions of nuclear matter for low-lying states of ⁸Be, ⁹Be hypernucleus, and ¹⁰Be double-hypernucleus, levels, J, π, B(E2) of ⁸Be, hypernucleus ⁹Be, and double-hypernucleus ¹⁰Be. Beyond-mean-field Skyrme-Hartree-Fock (SHF) model with SLy4+SLL4 interactions. Two-α structure reproduced for ground state of ⁸Be. Comparison with available experimental data, and with results of hypernuclear particle-rotor model.

doi: 10.1103/PhysRevC.97.034302
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2018LI56      Phys.Rev. C 98, 044621 (2018)

W.Li, G.Potel, F.Nunes

Nonlocal interactions in the (d, p) surrogate method for (n, γ) reactions

NUCLEAR REACTIONS ¹⁶O, ^40,48Ca, ²⁰⁸Pb(d, p), E=10, 20, 50 MeV; calculated differential σ(E, θ), σ(E), relative contributions of the different neutron-target orbital angular momenta, neutron-target wave functions, and imaginary part of the potentials using both local and non-local potentials. R-matrix method to solve the nonlocal equations. Comparison with previous theoretical predictions. Relevance to surrogate method for (n, γ) reactions.

doi: 10.1103/PhysRevC.98.044621
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2017LI28      Nucl.Instrum.Methods Phys.Res. B410, 158 (2017)

L.X.Liu, H.W.Wang, Y.G.Ma, X.G.Cao, X.Z.Cai, J.G.Chen, G.L.Zhang, J.L.Han, G.Q.Zhang, J.F.Hu, X.H.Wang, W.J.Li, Z.Yan, H.J.Fu

Measurements of the total cross section of ^natBe with thermal neutrons from a photo-neutron source

NUCLEAR REACTIONS ⁹Be(n, X), E=0.007-0.1 eV; measured reaction products, En, In, time-of-flight; deduced σ. Comparison with available data.

doi: 10.1016/j.nimb.2017.08.022
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset32767.

2017LI29      Nucl.Phys. A967, 59 (2017)

W.Li

Collective flow from AA, pA to pp collisions - Toward a unified paradigm

doi: 10.1016/j.nuclphysa.2017.05.011
Citations: PlumX Metrics

2017PO13      Eur.Phys.J. A 53, 178 (2017)

G.Potel, G.Perdikakis, B.V.Carlson, M.C.Atkinson, W.H.Dickhoff, J.E.Escher, M.S.Hussein, J.Lei, W.Li, A.O.Macchiavelli, A.M.Moro, F.M.Nunes, S.D.Pain, J.Rotureau

Toward a complete theory for predicting inclusive deuteron breakup away from stability

NUCLEAR REACTIONS ⁹³Nb(d, pn), E=10, 25.5 MeV; calculated σ(l_n), σ(θ_n) assuming both elastic and nonelastic breakup. Compared with published calculations. ^40,48,60Ca(d, pn), E=20, 40 MeV; calculated σ(Ep) vs En and vs l_n using both elastic and nonelastic breakup and using Hussein-McVoy theory.

doi: 10.1140/epja/i2017-12371-9
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2017SH11      Int.J.Mod.Phys. E26, 1730017 (2017)

S.Shen, X.Yu, J.Shen, S.Shi, J.Liu, W.Li, Y.Li, Y.Yan

Uncertainties on gamma-ray energies and intensities measured in the decay of ⁸³Sr

RADIOACTIVITY ⁸³Sr(β⁺), (EC); analyzed decay products, Eγ, Iγ; deduced uncertainties on γ-ray energies and intensities.

doi: 10.1142/S0218301317500173
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2015MA13      Phys.Rev.Lett. 114, 082501 (2015)

J.T.Matta, U.Garg, W.Li, S.Frauendorf, A.D.Ayangeakaa, D.Patel, K.W.Schlax, R.Palit, S.Saha, J.Sethi, T.Trivedi, S.S.Ghugre, R.Raut, A.K.Sinha, R.V.F.Janssens, S.Zhu, M.P.Carpenter, T.Lauritsen, D.Seweryniak, C.J.Chiara, F.G.Kondev, D.J.Hartley, C.M.Petrache, S.Mukhopadhyay, D.Vijaya Lakshmi, M.K.Raju, P.V.Madhusudhana Rao, S.K.Tandel, S.Ray, F.Donau

Transverse Wobbling in ¹³⁵Pr

NUCLEAR REACTIONS ¹²³Sb(¹⁶O, 4n), E=80 MeV; measured reaction products, Eγ, Iγ, γ-γ-γ-coin.; deduced energy levels, J, π, wobbling bands, B(M1)/B(E2), deviation from axiality. Comparison with available data and theoretical calculations.

doi: 10.1103/PhysRevLett.114.082501
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Data from this article have been entered in the XUNDL database. For more information, click here.

2015ZH02      Chin.Phys.C 39, 014001 (2015)

D.-H.Zhang, Y.-L.Chen, G.-R.Wang, W.-D.Li, Q.Wang, J.-J.Yao, J.-G.Zhou, r.Li, J.-S.Li, H.-L.Li

Forward-backward multiplicity correlations of target fragments in nucleus-emulsion collisions at a few hundred MeV/u

NUCLEAR REACTIONS H, C, N, O, S, I, B, Ag(α, X), E=150 MeV/nucleon; H, C, N, O, S, I, B, Ag(¹²C, X), E=290, 400 MeV/nucleon; H, C, N, O, S, I, B, Ag(²⁰Ne, X), E=400 MeV/nucleon; H, C, N, O, S, I, B, Ag(⁵⁶Fe, X), E=500 MeV/nucleon; measured reaction products, Ep, Ip; deduced fragment proton multiplicity distributions, correlations between the averaged multiplicity of backward and forward. Geometrical picture and the cascade evaporation model of high energy nucleus-nucleus collisions.

doi: 10.1088/1674-1137/39/1/014001
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2014LI48      Nucl.Phys. A932, 373c (2014)

W.Li, for the CMS Collaboration

Correlation and flow phenomena in pPb and PbPb at CMS

doi: 10.1016/j.nuclphysa.2014.09.049
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2011AL03      Phys.Rev. C 83, 024913 (2011)

B.Alver, B.B.Back, M.D.Baker, M.Ballintijn, D.S.Barton, R.R.Betts, A.A.Bickley, R.Bindel, A.Budzanowski, W.Busza, A.Carroll, Z.Chai, V.Chetluru, M.P.Decowski, E.Garcia, T.Gburek, N.George, K.Gulbrandsen, S.Gushue, C.Halliwell, J.Hamblen, G.A.Heintzelman, C.Henderson, D.J.Hofman, R.S.Hollis, R.Holynski, B.Holzman, A.Iordanova, E.Johnson, J.L.Kane, J.Katzy, N.Khan, J.Kotula, W.Kucewicz, P.Kulinich, C.M.Kuo, W.Li, W.T.Lin, C.Loizides, S.Manly, D.McLeod, J.Michalowski, A.C.Mignerey, R.Nouicer, A.Olszewski, R.Pak, I.C.Park, H.Pernegger, C.Reed, L.P.Remsberg, M.Reuter, C.Roland, G.Roland, L.Rosenberg, J.Sagerer, P.Sarin, P.Sawicki, I.Sedykh, W.Skulski, C.E.Smith, S.G.Steadman, P.Steinberg, G.S.F.Stephans, M.Stodulski, A.Sukhanov, M.B.Tonjes, A.Trzupek, C.Vale, G.J.van Nieuwenhuizen, S.S.Vaurynovich, R.Verdier, G.I.Veres, B.Wadsworth, P.Walters, E.Wenger, F.L.H.Wolfs, B.Wosiek, K.Wozniak, A.H.Wuosmaa, B.Wyslouch

Charged-particle multiplicity and pseudorapidity distributions measured with the PHOBOS detector in Au + Au, Cu + Cu, d + Au, and p + p collisions at ultrarelativistic energies

doi: 10.1103/PhysRevC.83.024913
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2011LI46      Phys.Rev. C 84, 054002 (2011)

W.Li, E.R.Anderson, R.J.Furnstahl

Similarity renormalization group with novel generators

doi: 10.1103/PhysRevC.84.054002
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2010AL01      Phys.Rev.Lett. 104, 062301 (2010)

B.Alver, B.B.Back, M.D.Baker, M.Ballintijn, D.S.Barton, R.R.Betts, A.A.Bickley, R.Bindel, W.Busza, A.Carroll, Z.Chai, V.Chetluru, M.P.Decowski, E.Garcia, T.Gburek, N.George, K.Gulbrandsen, C.Halliwell, J.Hamblen, M.Hauer, C.Henderson, D.J.Hofman, R.S.Hollis, R.Holynski, B.Holzman, A.Iordanova, E.Johnson, J.L.Kane, N.Khan, P.Kulinich, C.M.Kuo, W.Li, W.T.Lin, C.Loizides, S.Manly, A.C.Mignerey, R.Nouicer, A.Olszewski, R.Pak, C.Reed, C.Roland, G.Roland, J.Sagerer, H.Seals, I.Sedykh, C.E.Smith, M.A.Stankiewicz, P.Steinberg, G.S.F.Stephans, A.Sukhanov, M.B.Tonjes, A.Trzupek, C.Vale, G.J.van Nieuwenhuizen, S.S.Vaurynovich, R.Verdier, G.I.Veres, P.Walters, E.Wenger, F.L.H.Wolfs, B.Wosiek, K.Wozniak, B.Wyslouch

High Transverse Momentum Triggered Correlations over a Large Pseudorapidity Acceptance in Au + Au Collisions at √ s_NN = 200 GeV

doi: 10.1103/PhysRevLett.104.062301
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2010AL04      Phys.Rev. C 81, 024904 (2010)

B.Alver, B.B.Back, M.D.Baker, M.Ballintijn, D.S.Barton, R.R.Betts, R.Bindel, W.Busza, Z.Chai, V.Chetluru, E.Garcia, T.Gburek, K.Gulbrandsen, J.Hamblen, I.Harnarine, C.Henderson, D.J.Hofman, R.S.Hollis, R.Holynski, B.Holzman, A.Iordanova, J.L.Kane, P.Kulinich, C.M.Kuo, W.Li, W.T.Lin, C.Loizides, S.Manly, A.C.Mignerey, R.Nouicer, A.Olszewski, R.Pak, C.Reed, E.Richardson, C.Roland, G.Roland, J.Sagerer, I.Sedykh, C.E.Smith, M.A.Stankiewicz, P.Steinberg, G.S.F.Stephans, A.Sukhanov, A.Szostak, M.B.Tonjes, A.Trzupek, G.J.van Nieuwenhuizen, S.S.Vaurynovich, R.Verdier, G.I.Veres, P.Walters, E.Wenger, D.Willhelm, F.L.H.Wolfs, B.Wosiek, K.Wozniak, S.Wyngaardt, B.Wyslouch

System size dependence of cluster properties from two-particle angular correlations in Cu+Cu and Au+Au collisions at √ s_NN = 200 GeV

doi: 10.1103/PhysRevC.81.024904
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2010AL08      Phys.Rev.Lett. 104, 142301 (2010)

B.Alver, B.B.Back, M.D.Baker, M.Ballintijn, D.S.Barton, R.R.Betts, A.A.Bickley, R.Bindel, W.Busza, A.Carroll, Z.Chai, M.P.Decowski, E.Garcia, T.Gburek, N.George, K.Gulbrandsen, C.Halliwell, J.Hamblen, M.Hauer, C.Henderson, D.J.Hofman, R.S.Hollis, R.Holynski, B.Holzman, A.Iordanova, E.Johnson, J.L.Kane, N.Khan, P.Kulinich, C.M.Kuo, W.Li, W.T.Lin, C.Loizides, S.Manly, A.C.Mignerey, R.Nouicer, A.Olszewski, R.Pak, C.Reed, C.Roland, G.Roland, J.Sagerer, H.Seals, I.Sedykh, C.E.Smith, M.A.Stankiewicz, P.Steinberg, G.S.F.Stephans, A.Sukhanov, M.B.Tonjes, A.Trzupek, C.Vale, G.J.van Nieuwenhuizen, S.S.Vaurynovich, R.Verdier, G.I.Veres, P.Walters, E.Wenger, F.L.H.Wolfs, B.Wosiek, K.Wozniak, B.Wyslouch

Event-by-Event Fluctuations of Azimuthal Particle Anisotropy in Au+Au Collisions at √ s_NN = 200 GeV

doi: 10.1103/PhysRevLett.104.142301
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2010LI28      Nucl.Phys. A834, 306c (2010)

W.Li, S.Zhang, Y.G.Ma, X.Z.Cai, J.H.Chen, H.Z.Huang, G.L.Ma, C.Zhong

Di-Hadron Azimuthal Correlations with respect to Reaction Plane from a Multi-Phase Transport Model Calculation

NUCLEAR REACTIONS Au(Au, X), E(cm)=200 GeV/nucleon; calculated di-hadron correlations using AMPT model. Comparison with data.

doi: 10.1016/j.nuclphysa.2010.01.005
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2010MA47      Nucl.Phys. A834, 581c (2010)

C.-W.Ma, H.-L.Wei, H.-Y.Wang, W.-F.Li, Y.-Q.Li

The isospin dependence of the projectile fragmentation of mirror nuclei at intermediate energy

NUCLEAR REACTIONS ¹²C(²⁰O, X)Be/B/C/N/O, (²⁰Mg, X)Be/B/C/N/O, E=80 MeV/nucleon; measured isotope yields; deduced σ. ¹²C(⁶⁰Ni, X)N/Ne/Al/S/K/Ti/Mn/Ni, (⁶⁰Ge, X)N/Ne/Al/S/K/Ti/Mn/Ni, E=80 MeV/nucleon; measured isotope yields; deduced σ; analyzed effect of mirror nuclei systems using statistical abrasion-ablation model.

doi: 10.1016/j.nuclphysa.2010.01.097
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2009LI57      Phys.Rev. C 80, 064913 (2009)

W.Li, S.Zhang, Y.G.Ma, X.Z.Cai, J.H.Chen, H.Z.Huang, G.L.Ma, C.Zhong

Reaction plane angle dependence of dihadron azimuthal correlations from a multiphase transport model calculation

doi: 10.1103/PhysRevC.80.064913
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2008AL02      Phys.Rev. C 77, 014906 (2008)

B.Alver, B.B.Back, M.D.Baker, M.Ballintijn, D.S.Barton, R.R.Betts, R.Bindel, W.Busza, V.Chetluru, E.Garcia, T.Gburek, J.Hamblen, U.Heinz, D.J.Hofman, R.S.Hollis, A.Iordanova, W.Li, C.Loizides, S.Manly, A.C.Mignerey, R.Nouicer, A.Olszewski, C.Reed, C.Roland, G.Roland, J.Sagerer, P.Steinberg, G.S.F.Stephans, M.B.Tonjes, A.Trzupek, G.J.van Nieuwenhuizen, S.S.Vaurynovich, R.Verdier, G.I.Veres, P.Walters, E.Wenger, B.Wosiek, K.Wozniak, B.Wyslouch

Importance of correlations and fluctuations on the initial source eccentricity in high-energy nucleus-nucleus collisions

doi: 10.1103/PhysRevC.77.014906
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2008AL15      Phys.Rev. C 77, 061901 (2008)

B.Alver, B.B.Back, M.D.Baker, M.Ballintijn, D.S.Barton, R.R.Betts, R.Bindel, W.Busza, Z.Chai, V.Chetluru, E.Garcia, T.Gburek, K.Gulbrandsen, J.Hamblen, I.Harnarine, C.Henderson, D.J.Hofman, R.S.Hollis, R.Holynski, B.Holzman, A.Iordanova, J.L.Kane, P.Kulinich, C.M.Kuo, W.Li, W.T.Lin, C.Loizides, S.Manly, A.C.Mignerey, R.Nouicer, A.Olszewski, R.Pak, C.Reed, E.Richardson, C.Roland, G.Roland, J.Sagerer, I.Sedykh, C.E.Smith, M.A.Stankiewicz, P.Steinberg, G.S.F.Stephans, A.Sukhanov, A.Szostak, M.B.Tonjes, A.Trzupek, G.J.van Nieuwenhuizen, S.S.Vaurynovich, R.Verdier, G.I.Veres, P.Walters, E.Wenger, D.Willhelm, F.L.H.Wolfs, B.Wosiek, K.Wozniak, S.Wyngaardt, B.Wyslouch

Identified charged antiparticle to particle ratios near midrapidity in Cu+Cu collisions at √ s_NN = 62.4 and 200 GeV

doi: 10.1103/PhysRevC.77.061901
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2007AL31      Phys.Rev. C 75, 054913 (2007)

B.Alver, B.B.Back, M.D.Baker, M.Ballintijn, D.S.Barton, R.R.Betts, R.Bindel, W.Busza, Z.Chai, V.Chetluru, E.Garcia, T.Gburek, K.Gulbrandsen, J.Hamblen, I.Harnarine, C.Henderson, D.J.Hofman, R.S.Hollis, R.Holynski, B.Holzman, A.Iordanova, J.L.Kane, P.Kulinich, C.M.Kuo, W.Li, W.T.LIn, C.Lozides, S.Manly, A.C.Mignerey, R.Nouicer, A.Olszewski, R.Pak, C.Reed, E.Richardson, C.Roland, G.Roland, J.Sagerer, I.Sedykh, C.E.Smith, M.A.Stankiewicz, P.Steinberg, G.S.F.Stephens, A.Sukhanov, A.Szopstak, M.B.Tonjes, A.Trzupek, G.J.van Nieuwenhuizen, S.S.Vaurynovich, R.Verier, G.I.Veres, P.Walters, E.Wenger, D.Willhelm, F.L.H.Wolfs, B.Wosiek, K.Wozniak, S.Wyngaardt, B.Wyslouch

Cluster properties from two-particle angular correlations in p+p collisions at √ s = 200 and 410 GeV

NUCLEAR REACTIONS ¹H(p, X), E(cm)=200, 410 GeV; measured two particle angular correlations. Compared results to model calculations.

doi: 10.1103/PhysRevC.75.054913
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2007LI45      Nucl.Phys. A790, 88c (2007)

W.Li, G.B.Partridge, Y.A.Liao, R.G.Hulet

Pairing of a trapped Fermi gas with unequal spin populations

doi: 10.1016/j.nuclphysa.2007.03.160
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2007LI78      J.Phys.(London) G34, S1005 (2007)

W.Li, for the PHOBOS Collaboration

Two-particle angular correlations in p+p and Cu+Cu collisions at PHOBOS

doi: 10.1088/0954-3899/34/8/S144
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2006AL11      Phys.Rev.Lett. 96, 212301 (2006)

B.Alver, B.B.Back, M.D.Baker, M.Ballintijn, D.S.Barton, R.R.Betts, R.Bindel, W.Busza, Z.Chai, V.Chetluru, E.Garcia, T.Gburek, K.Gulbrandsen, J.Hamblen, I.Harnarine, C.Henderson, D.J.Hofman, R.S.Hollis, R.Holynski, B.Holzman, A.Iordanova, J.L.Kane, P.Kulinich, C.M.Kuo, W.Li, W.T.Lin, C.Loizides, S.Manly, A.C.Mignerey, R.Nouicer, A.Olszewski, R.Pak, C.Reed, E.Richardson, C.Roland, G.Roland, J.Sagerer, I.Sedykh, C.E.Smith, M.A.Stankiewicz, P.Steinberg, G.S.F.Stephans, A.Sukhanov, A.Szostak, M.B.Tonjes, A.Trzupek, G.J.van Nieuwenhuizen, S.S.Vaurynovich, R.Verdier, G.I.Veres, P.Walters, E.Wenger, D.Willhelm, F.L.H.Wolfs, B.Wosiek, K.Wozniak, S.Wyngaardt, B.Wyslouch

System Size and Centrality Dependence of Charged Hadron Transverse Momentum Spectra in Au + Au and Cu + Cu Collisions at √ s_NN = 62.4 and 200 GeV

NUCLEAR REACTIONS Cu(Cu, X), Au(Au, X), E(cm)=62.4, 200 GeV/nucleon; measured charged hadrons transverse momentum spectra; deduced system size and centrality dependence, nuclear modification factors.

doi: 10.1103/PhysRevLett.96.212301
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2006LI19      Int.J.Mod.Phys. E15, 865 (2006)

W.Li, X.D.Wang

The relation of jet quenching and power-law observed in p_T-distributions in relativistic heavy-ion collisions

NUCLEAR REACTIONS Cu(Cu, X), E(cm)=200 GeV/nucleon; ¹⁹⁷Au(¹⁹⁷Au, X), E(cm)=130, 200 GeV/nucleon; analyzed neutral pions transverse momentum spectra, jet quenching features, nuclear medium effects.

doi: 10.1142/S0218301306004673
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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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2005FE05      Chin.Phys.Lett. 22, 846 (2005)

Z.-Q.Feng, G.-M.Jin, F.Fu, F.S.Zhang, F.Jia, X.Huang, R.-J.Hu, W.-F.Li, J.-Q.Li

Entrance Channel Dependence of Production Cross Sections of Superheavy Nuclei in Cold Fusion Reactions

NUCLEAR REACTIONS ²⁰⁸Pb(⁵⁰Ti, X), (⁵⁸Fe, X), ¹²⁴Sn(¹³⁴Xe, X), ¹³⁶Xe(¹³⁰Xe, X), E not given; calculated interaction potentials. ²⁰⁸Pb(⁵⁰Ti, n), E(cm) ≈ 176-196 MeV; ¹²⁴Sn(¹³⁶Xe, n), (¹³⁴Xe, n), E(cm) ≈ 284-292 MeV; ²⁰⁸Pb(⁵⁸Fe, n), E(cm) ≈ 212-225 MeV; ¹³⁶Xe(¹³⁰Xe, n), E(cm) ≈ 306-316 MeV; calculated evaporation residue σ. Dinuclear system model, comparisons with data.

doi: 10.1088/0256-307X/22/4/019
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2005JI03      Chin.Phys.Lett. 22, 1374 (2005)

F.Jia, H.-S.Xu, T.-H.Huang, W.-F.Li, H.-G.Xu, R.-F.Chen, J.-Q.Li

Potential Energy of the Di-nuclear System

NUCLEAR REACTIONS ²⁴³Es(³⁵Al, X), ²⁰⁸Pb(⁷⁰Zn, X), E not given; calculated Coulomb and nuclear interaction potentials, deformation effects.

doi: 10.1088/0256-307X/22/6/021
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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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2004LI32      Chin.Phys.Lett. 21, 636 (2004)

W.-F.Li, Z.-Z.Wang, H.-S.Xu, Y.Ma, H.-F.Zhang, W.Zuo, J.-Q.Li, N.Wang, E.-G.Zhao, W.Scheid

Odd-Even Effects of the Survival Probability for Superheavy Compound Nuclei

NUCLEAR STRUCTURE ^{284,285,286,287,288,289,290,291}Fl; calculated neutron separation energies, fission barriers, survival probability for neutron evaporation; deduced odd-even effects. Statistical model.

NUCLEAR REACTIONS ^241,242,243Pu(⁴⁸Ca, X), E not given; calculated driving potential vs mass asymmetry.

doi: 10.1088/0256-307X/21/4/013
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2003LI59      Europhys.Lett. 64, 750 (2003)

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

Fusion probability in heavy-ion collisions by a dinuclear-system model

NUCLEAR REACTIONS ²⁰⁸Pb(⁵⁰Ti, X), (⁵⁴Cr, X), (⁵⁸Fe, X), (⁶⁴Ni, X), (⁶⁸Zn, X), (⁷⁶Ge, X), (⁸²Ge, X), (⁸²Se, X), (⁸⁶Kr, X), E^* ≈ 11-16 MeV; calculated fusion probabilities, optimal excitation energies. Dinuclear-system model.

doi: 10.1209/epl/i2003-00622-0
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2003WA12      Chin.Phys.Lett. 20, 635 (2003)

N.Wang, E.-G.Zhao, J.-F.Li, W.-F.Li, H.-S.Xu, W.Zuo, J.-Q.Li

Influence of Nuclear Deformation on the Potential Energy Surface in Di-Nuclear Model

NUCLEAR REACTIONS ²⁰⁸Pb(⁵⁴Cr, X), (²⁸Al, X), ²²⁷Np(³⁵Al, X), E not given; calculated interaction potentials, deformation effects.

doi: 10.1088/0256-307X/20/5/313
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2003ZH49      Mod.Phys.Lett. A 18, 151 (2003)

H.Y.Zhang, W.Q.Shen, Y.G.Ma, X.Z.Cai, D.Q.Fang, C.Zhong, Y.B.Wei, J.G.Chen, X.F.Zhou, G.L.Ma, K.Wang, Z.Z.Ren, W.L.Zhan, Z.Y.Guo, G.Q.Xiao, H.S.Xu, J.S.Wang, Z.Y.Sun, H.X.Li, M.Wang, Z.Q.Chen, Z.G.Xiao, W.F.Li, J.F.Li, Z.G.Hu, J.Bai, L.X.Chen

Possible exotic structure in light proton-rich nuclei

NUCLEAR REACTIONS C(¹⁵N, X), (¹⁷N, X), (¹⁶O, X), (¹⁸O, X), (¹⁷F, X), (¹⁹F, X), (²¹F, X), (²⁰Ne, X), (²²Ne, X), (²¹Na, X), (²³Na, X), (²²Mg, X), (²⁴Mg, X), (²³Al, X), (²⁵Al, X), (²⁶Si, X), (²⁷P, X), E ≈ 18-33 MeV; measured reaction σ. ¹⁷F, ²³Al, ²⁷P deduced radii, halo features. Secondary beams from ³⁶Ar fragmentation. Comparison with model predictions.

doi: 10.1142/S0217732303010156
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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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2000LI11      Eur.Phys.J. A 7, 397 (2000)

W.Li, Z.Qin, L.Zhao, W.Wen, Q.Lou, T.Sun, S.Ambe, Y.Ohkubo, M.Iwamoto, Y.Kobayashi, H.Maeda, F.Ambe

Mass Yield Distributions of Target Fragments from the Reactions of Iron with 135 MeV/nucleon ¹²C and 80 MeV/nucleon ¹⁶O Ions

NUCLEAR REACTIONS Fe(¹²C, X), E=135 MeV/nucleon; Fe(¹⁶O, X), E=80 MeV/nucleon; measured target-like fragment isotopic production σ. Comparison with theoretical calculations.

doi: 10.1007/PL00013623
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA0438.

2000YU03      Int.J.Mod.Phys. E9, 471 (2000)

X.Yu, S.Shi, J.Gu, J.Liu, W.Li, S.Shen, Y.Li

Low-Spin States of ⁸³Rb Excited in the ⁸³Sr(β⁺ + EC)⁸³Rb Decay

RADIOACTIVITY ⁸³Sr(β⁺), (EC) [from ⁸⁵Rb(p, 3n)]; measured Eγ, Iγ, γγ-coin; deduced log ft. ⁸³Rb deduced levels, J, π. Radiochemical separation.

doi: 10.1142/S0218301300000350
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2000ZH48      Eur.Phys.J. A 9, 149 (2000)

F.-S.Zhang, L.-W.Chen, W.-F.Li, Z.-Y.Zhu

Isospin Effects on Squeeze-Out Flow in Heavy-Ion Collisions

NUCLEAR REACTIONS ¹²⁴Sn(¹²⁴Sn, X), ¹²⁴Ba(¹²⁴Ba, X), E=150-550 MeV/nucleon; calculated fragments squeeze-out flow angular distributions, related features; deduced isospin dependence. Isospin-dependent quantum molecular dynamics.

doi: 10.1007/s100500070029
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1999LI48      Nuovo Cim. 112A, 801 (1999)

W.Li, X.Cai

Quark Rotation Asymmetry and Baryon Magnetic Moments

NUCLEAR STRUCTURE ¹n, ¹H; analyzed μ; deduced quark rotation asymmetry.

1999LI56      High Energy Phys. and Nucl.Phys. (China) 23, 320 (1999)

Y.Li, J.Gu, X.Yu, J.Liu, Y.Cao, J.Zeng, W.Li, S.Shi

Study of the Low Excited States of ⁷²Ge

1999ZH40      Radiochim.Acta 86, 11 (1999)

X.Zhang, W.Li, K.Fang, W.He, R.Sheng, D.Ying, W.Hu

Excitation Functions for ^natW(p, xn)^181-186Re Reactions and Production of No-Carrier-Added ¹⁸⁶Re via ¹⁸⁶W(p, n)¹⁸⁶Re Reaction

NUCLEAR REACTIONS W(p, xn)¹⁸¹Re/¹⁸²Re/^182mRe/¹⁸³Re/¹⁸⁴Re/^184mRe/¹⁸⁶Re, E=7.5-22.5 MeV; ¹⁸⁶W(p, n), E=5-15.4 MeV; measured excitation functions. Activation technique, radiochemical separation.

Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0380.

1998YU07      High Energy Phys. and Nucl.Phys. (China) 22, 1082 (1998)

X.Yu, S.Shi, J.Gu, J.Liu, W.Li, J.Zeng, J.Tian, Y.Li, J.Zhou

Low-lying level structure of ⁸³Rb

1996LI47      Radiochim.Acta 72, 109 (1996)

W.Li, T.Sun, D.Wu, R.Sun, L.Zhao, X.Yin, X.Zhang, Q.Luo, F.Zhang, G.Jin

Target Residues from the Interaction of Copper with 20-46 MeV/Nucleon ¹²C Ions

NUCLEAR REACTIONS, ICPND Cu(¹²C, X)²⁴Na/²⁸Mg/³⁴Cl/^34mCl/³⁹Cl/⁴¹Ar/⁴²K/⁴³K/⁴⁴Sc/^44mSc/⁴⁷Sc/⁴⁸Sc/⁴⁸V/⁴⁸Cr/⁴⁹Cr/⁵¹Cr/⁵²Mn/^52mMn/⁵²Fe/⁵⁴Mn/⁵⁵Co/⁵⁶Mn/⁵⁶Co/⁵⁷Ni/⁵⁸Co/⁵⁹Fe/⁶⁰Co/⁶⁰Cu/⁶¹Cu/⁶²Zn/⁶³Zn/⁶⁵Zn/⁶⁶Ga/⁶⁷Ga/⁶⁹Ga/⁷¹As, E=20-46 MeV/nucleon; measured residuals production σ vs E, cumulative or independent yields, charge distribution. Thick target, thick catcher foil technique. Fireball model, statistical binary decay.

Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA0449.

1996LI54      Nucl.Instrum.Methods Phys.Res. A370, 435 (1996)

W.Li, Z.Li, S.Zhu, S.Yin, B.Zhao, G.Chen

Improved Method for HgI₂ Crystal Growth and Detector Fabrication

RADIOACTIVITY ²⁴¹Am(α); ¹³⁷Cs(β^-); measured γ spectra. Improved HgI₂ crystal growth, detector fabrication.

doi: 10.1016/0168-9002(95)00846-2
Citations: PlumX Metrics

1996QI01      Z.Phys. A355, 315 (1996)

Z.Qin, A.Ono, W.Li, L.Zhao, T.Sun, S.Ambe, Y.Ohkubo, M.Iwamoto, Y.Kobayashi, H.Maeda, F.Ambe

The Mass Yield Distribution of Fragments Studied with Improved Antisymmetrized Molecular Dynamics

NUCLEAR REACTIONS Fe(¹²C, X), E=135 MeV/nucleon; calculated fragment production σ mass distributions. Improved antisymmetrized molecular dynamics.

doi: 10.1007/s002180050113
Citations: PlumX Metrics

1996ZH34      Radiochim.Acta 75, 7 (1996)

X.Zhang, X.Yin, W.Li, T.Sun, Z.Qin, L.Zhao, D.Wu

Production of Hafnium Nuclides in the Reactions of 6.3- to 24.6-MeV/Nucleon ⁴⁰Ar Ions with Natural Tungsten

NUCLEAR REACTIONS, ICPND W(⁴⁰Ar, X)¹⁷⁰Hf/¹⁷¹Hf/¹⁷³Hf/¹⁷⁵Hf/¹⁸⁰Hf/¹⁸¹Hf/¹⁸²Hf/¹⁸³Hf, E=6.3-24.6 MeV; measured production σ. Activation technique.

1995ZH53      Chin.J.Nucl.Phys. 17, No 3, 247 (1995)

X.Zhang, W.-X.Li, X.M.Yin, W.-X.Wen, T.-Y.Sun, G.-M.Jin, Q.-Z.Luo

Mass Yield Distribution in Intermediate Energy Heavy Ion Reactions

NUCLEAR REACTIONS Cu(⁴⁰Ar, X), E=40 MeV/nucleon; measured fragment mass yield distribution. Off-line γ-spectroscopy. Statistical binary decay model.

1993LI20      Phys.Rev. C48, 628 (1993)

W.Li, T.Sun, T.Chih, Y.Li, Y.Zheng, R.Sun, L.Zhao, D.Wu, G.Jing, B.Sa

Target Fragments from the Interaction of ⁹³Nb and ¹⁸¹Ta with 47 MeV/Nucleon ¹²C Ions

NUCLEAR REACTIONS ⁹³Nb, ¹⁸¹Ta(¹²C, X), E=47 MeV/nucleon; measured production σ for fragment ²²Na to ¹⁸²Ta, mass yield distribution. Off-line γ-spectroscopy. Fusion-fragmentation model.

doi: 10.1103/PhysRevC.48.628
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA0439.

1993YI02      Chin.J.Nucl.Phys. 15, No 1, 21 (1993)

X.Yin, Q.Luo, W.Li, T.Sun, L.Zhao, R.Sun, D.Wu

The Mass Distributions in Intermediate Energy Heavy Ion Reactions

NUCLEAR REACTIONS ¹¹⁵In(¹²C, X), E=42 MeV/nucleon; measured fragment yield vs mass. Statistical binary model.

1993YU03      Z.Phys. A346, 187 (1993)

S.Yuan, T.Zhang, S.Xu, Z.Li, Q.Pan, Z.Zhao, W.Yang, X.Zhang, W.Li, X.Yin, Y.Du, Y.Wang

The Synthesis and Identification of New Heavy Neutron-Rich Nuclide ²³⁷Th

NUCLEAR REACTIONS ²³⁸U(n, 2p), E=14 MeV; measured Eγ, Iγ; deduced evidence for ²³⁷Th.

RADIOACTIVITY ²³⁷Th(β^-) [from ²³⁸U(n, 2p), E=14 MeV]; measured Eγ, Iγ, decay curve; deduced T_1/2.

doi: 10.1007/BF01306078
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1993ZH07      Nucl.Phys. A553, 489c (1993)

L.Zhang, S.Yuan, G.Jin, T.Zhang, J.Zhao, Q.Pan, W.Yang, X.Zhang, Y.Yang, S.Xu, Z.Zhao, J.Zheng, X.Sun, W.Li, Y.Luo, B.Wei

Synthesis and Identification of New Heavy Nuclides Far Off Stability

NUCLEAR REACTIONS Pb(¹²C, X), E=30 MeV/nucleon; measured γ-spectra; deduced evidence for ²⁰⁸Hg, production <σ>.

RADIOACTIVITY ²⁰⁸Hg(β^-) [from Pb(¹²C, X), E=30 MeV/nucleon]; ¹⁸⁵Hf(β^-) [from ¹⁸⁶W(n, 2p), E=14 MeV]; measured γ-spectra, decay rates; deduced T_1/2. ¹⁸⁵Ta deduced new transition.

doi: 10.1016/0375-9474(93)90645-E
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1992LI15      Phys.Rev. C46, 1538 (1992)

W.Li, X.Yin, Q.Lou, L.Zhao, T.Sun, D.Wu

Mass Yield Distribution of Target Residues from the Reaction of Indium with 42 MeV/Nucleon ¹²C Ions

NUCLEAR REACTIONS In(¹²C, X), E=42 MeV/nucleon; measured target residue production σ, X=⁴⁸V-¹⁰⁰Pd; deduced mass yield distribution. Nuclear chemistry technique. Statistical binary decay model based Monte Carlo code.

doi: 10.1103/PhysRevC.46.1538
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA0440.

1992ZH22      Chin.J.Nucl.Phys. 14, No 2, 116 (1992)

Y.Zheng, T.Chih, W.Li, X.Zhang, B.Sa, W.Li

Mass Yield Distribution of Fragments in Intermediate Energy Heavy Ion Reactions

NUCLEAR REACTIONS ⁶³Cu(¹²C, X), E=35 MeV/nucleon; ¹⁸¹Ta(¹²C, X), E=45 MeV/nucleon; calculated fragment mass yield distribution. Fusion-fragmentation model.

1989YU01      Phys.Rev. C39, 256 (1989)

Yuan Shuanggui, Zhang Tianmei, Xu Shuwei, Li Wenxin, Zhang Li, Liu Manqing, Ou Xiulan, Li Weisheng

Determination of the ²³⁵Th β-Decay End Point Energy

RADIOACTIVITY ²³⁵Th(β^-); measured β-, γ-spectra, Eβ, T_1/2; deduced Qβ. Semiconductor telescope, hyperpure Ge detector.

doi: 10.1103/PhysRevC.39.256
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1988LI35      J.Nucl.Radiochem. 2, 9 (1988)

W.Li, T.Sun, X.Sun, T.Zhang, M.Zheng, T.Dong, M.Fu

Charge Distribution in the Fission of ²³⁸U by 14.7 MeV Neutron

NUCLEAR REACTIONS ²³⁸U(n, F)⁸²Br/¹³²I/¹³⁶Cs/¹⁴⁰La/⁹⁵Zr/⁹⁷Zr/⁹⁹Mo/¹³¹I/¹³⁴I/¹³⁵I/¹³⁸Cs/¹⁴²La, E=14.7 MeV; measured fission products using radiochemical methods; deduced independent and cumulative fission yields.

1988YU06      High Energy Phys. and Nucl.Phys. (China) 12, 712 (1988)

S.Yuan, T.Zhang, S.Xu, W.Li, L.Zhang, M.Liu, X.Ou, W.Li

The Determination of endpoint energy for ²³⁵Th β-decay

1988YU07      High Energy Phys. and Nucl.Phys. (China) 12, 712 (1988)

S.Yuan, T.Zhang, S.Xu, W.Li, L.Zhang, M.Liu, X.Ou, W.Li

The Determination of endpoint energy for ²³⁵Th ν-decay

1986AL25      Phys.Scr. 34, 489 (1986)

K.Aleklett, W.Loveland, T.T.Sugihara, A.N.Behkami, D.J.Morrissey, Li Wenxin, Wing Kot, G.T.Seaborg

Incomplete and Complete Fusion in Intermediate Energy Heavy Ion Reactions

NUCLEAR REACTIONS ¹⁵⁴Sm(¹⁶O, X)¹⁵¹Tb/¹⁵⁶Tb/¹⁵¹Gd, E=19 MeV/nucleon; ¹⁵⁴Sm(¹²C, X)¹⁴⁵Eu/¹⁴⁷Eu/¹³⁵Ce/¹³¹Ba/¹²³I/¹²¹Te/¹⁰⁵Ag, E=35, 85 MeV/nucleon; measured residual nuclei yields, σ(θ), differential range spectra; deduced isobaric yields, velocity spectra. Enriched target, activation method. Boltzmann master equation.

doi: 10.1088/0031-8949/34/6A/004
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2554.

1983LI24      J.Nucl.Radiochem. 5, 176 (1983)

W.Li, T.Sun, M.Zhen, T.Dong, X.Sun

Determination of the Yields for the Rare-Earth Nuclides from 14 MeV Neutron Fission of ²³⁸U Using Ge(Li) Detector

NUCLEAR REACTIONS ²³⁸U(n, F)⁹³Y/¹⁴¹Ce/¹⁴²La/¹⁴³Ce/¹⁴⁴Ce/¹⁴⁵Pr/¹⁴⁷Nd/¹⁴⁹Nd/¹⁴⁹Pm/¹⁵¹Pm/¹⁵³Sm/¹⁵⁶Sm/¹⁵⁶Eu/¹⁵⁷Eu, E=14 MeV; measured fission products, Eγ, Iγ; deduced cumulative yields.

Data from this article have been entered in the EXFOR database. For more information, access X4 dataset32628.

Note: The following list of authors and aliases matches the search parameter W.Li: , W.B.LI, W.D.LI, W.F.LI, W.J.LI, W.M.LI, W.X.LI, W.Y.LI