NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = K.Wen Found 15 matches. 2022WE01 Phys.Rev. C 105, 034603 (2022) Microscopic collective inertial masses for nuclear reaction in the presence of nucleonic effective mass NUCLEAR REACTIONS 16O(16O, X)32S*, E(cm)=1-10 MeV; 4He(16O, X)20Ne*, E(cm)<3 MeV; calculated collective reaction paths for fusion reactions, inertial mass, rotational moments of inertia, potential energy along collective path, astrophysical S factor for the subbarrier fusion. Adiabatic self-consistent collective coordinate (ASCC) method.
doi: 10.1103/PhysRevC.105.034603
2019WE15 Acta Phys.Pol. B50, 567 (2019) K.Wen, M.C.Barton, A.Rios, P.D.Stevenson Dissipation Dynamics of Nuclear Fusion Reactions NUCLEAR REACTIONS 16O(16O, X)32S, E=40 MeV; collective potential, calculated friction coefficient and intrinsic excitation energy using time-dependent density matrix (TDDM) and time-dependent Hartree-Fock (TDHF) models.
doi: 10.5506/aphyspolb.50.567
2018WE06 Phys.Rev. C 98, 014603 (2018) K.Wen, M.C.Barton, A.Rios, P.D.Stevenson Two-body dissipation effect in nuclear fusion reactions NUCLEAR REACTIONS 16O(16O, X)32S*, E(cm)=20, 40 MeV; calculated total energy of the fusion system, collective potential, friction coefficient, and intrinsic excitation energy using time-dependent density matrix (TDDM) and time-dependent Hartree-Fock (TDHF) models. Dissipative dynamics.
doi: 10.1103/PhysRevC.98.014603
2017WA02 At.Data Nucl.Data Tables 114, 281 (2017) B.Wang, K.Wen, W.-J.Zhao, E.-G.Zhao, S.-G.Zhou Systematics of capture and fusion dynamics in heavy-ion collisions NUCLEAR REACTIONS 89Y(12C, X), 59Co(14N, X), E(cm)<100 MeV; calculated capture excitation functions by using an empirical coupled-channel (ECC) model for 182<ZpZt<1640. Comparison with available data.
doi: 10.1016/j.adt.2016.06.003
2017WE07 Phys.Rev. C 96, 014610 (2017) Adiabatic self-consistent collective path in nuclear fusion reactions NUCLEAR REACTIONS 16O(16O, X)32S*, E(cm)<12 MeV; 4He(16O, X)20Ne*, E(cm)<3 MeV; calculated collective reaction paths for fusion reactions, octupole moment Q30 as a function of relative distance, density distribution contours and superdeformed state for 32S, single-particle energies for the fusion path, astrophysical S factor for the subbarrier fusion. Adiabatic self-consistent collective coordinate (ASCC) method.
doi: 10.1103/PhysRevC.96.014610
2016WE13 Phys.Rev. C 94, 054618 (2016) Self-consistent collective coordinate for reaction path and inertial mass NUCLEAR STRUCTURE 8Be; calculated eigenfrequencies for the ground state and the two well-separated α particles, density distribution, inertial mass, collective path, potential energy, cranking inertial mass, nuclear phase shift for scattering between two α particles as a function of incident energy of up to 40 MeV. Adiabatic self-consistent collective coordinate (ASCC) method. Comparison with theoretical results from constrained Hartree-Fock method, Inglis's cranking formula, and the adiabatic time-dependent Hartree-Fock (ATDHF) method.
doi: 10.1103/PhysRevC.94.054618
2014WE11 Phys.Rev. C 90, 054613 (2014) K.Wen, F.Sakata, Z.-X.Li, X.-Z.Wu, Y.-X.Zhang, S.-G.Zhou Energy dependence of the nucleus-nucleus potential and the friction parameter in fusion reactions
doi: 10.1103/PhysRevC.90.054613
2013WE07 Phys.Rev.Lett. 111, 012501 (2013) K.Wen, F.Sakata, Z.-X.Li, X.-Z.Wu, Y.-X.Zhang, S.-G.Zhou Non-Gaussian Fluctuations and Non-Markovian Effects in the Nuclear Fusion Process: Langevin Dynamics Emerging from Quantum Molecular Dynamics Simulations
doi: 10.1103/PhysRevLett.111.012501
1988YU01 Chin.J.Nucl.Phys. 10, 39 (1988) Yuan Rongfang, Wen Keling, Wang Zhifu, Yuan Jian, Zhang Peihua, Xu Jianping, Mao Zhiqiang, Bao Xiuming, Wang Yuanda, Wang Jianan, Sun Zuxun Study of (α, p) Three Nucleon Transfer Reactions on Odd A Nuclei in 1f7/2 Shell NUCLEAR REACTIONS 51V, 55Mn(α, p), E=25.7 MeV; measured σ(θ). 54Cr, 58Fe levels deduced transfer angular momentum characteristics. DWBA, quasitriton.
1985WA30 Chin.J.Nucl.Phys. 7, 297 (1985) Wang Yuanda, Bao Xiuming, Mao Zhiqiang, Yuan Rongfang, Wen Keling, Huang Bingyin, Wang Zhifu, Li Shuming, Wang Jianan, Sun Zuxun 58,60,62Ni(α, p) Three-Nucleon Transfer Reactions and α Optical Potential Ambiguities NUCLEAR REACTIONS 58,60,62Ni(α, α), (α, p), E=25.4, 26 MeV; measured σ(θ). Enriched targets. Optical model. DWBA analyses.
1983ZH09 Chin.J.Nucl.Phys. 5, 1 (1983) Zhang Peihua, Wen Keling, Li Shuming, Bao Xiumin, Shi Yijin, Sun Zuxun Study of QFS Mechanism in 9Be, 12C(α, 2α) Reactions at Low Energy NUCLEAR REACTIONS 9Be, 12C(α, 2α), E=18 MeV; measured σ(θ1, θ2, E1). 9Be, 12C deduced α-particle momentum distribution width, clustering probability. Quasifree scattering, generator coordinate method.
1982WE15 Chin.J.Nucl.Phys. 4, 289 (1982) Wen Keling, Zhang Peihua, Sun Zuxun The Effect of α - α Final State Interaction on (α, 2α) Quasi-Free Scattering NUCLEAR REACTIONS 6Li(α, 2α), E=8, 8.5 MeV; analyzed σ(E1, θ1, θ2); deduced final state interaction effects. Plane wave impulse approximation, quasifree scattering.
1980YE02 Chin.J.Nucl.Phys. 2, 147 (1980) Ye Binqi, Wen Keling, Zhang Peihua, Yuan Rongfang, Huang Bingyin Interaction of 9.05 MeV Deuterons on 7Li Nucleus NUCLEAR REACTIONS 7Li(d, p), (d, d), (d, t), E=9.05 MeV; measured σ(θ); deduced reaction mechanism. Optical model, zero-range DWBA analysis.
1980ZH05 Chin.J.Nucl.Phys. 2, 219 (1980) Zhang Peihua, Sun Zuhsun, Wen Keling, Wang Fanglin, Wang Shumao Quasi-free Scattering in 6,7Li(α, 2α)2,3H Reactions at Low Energy NUCLEAR REACTIONS 6,7Li(α, 2α), E=18 MeV; measured αα(θ); deduced quasifree scattering effect. 6,7Li deduced cluster probalities. PWIA, on-shell approximation.
1979SU14 Chin.J.Nucl.Phys. 1, 1 (1979) Sun Han-Cheng, Yao Jin-Zhang, Sun Tsu-Xun, Wen Ke-Ling, Lu Hui-Jun, Dai Neng-Xiong, Jin Rong-Hua, Yan Chen d + 6Li and α + 6Li Quasi-Free Processes at Low Energies NUCLEAR REACTIONS 6Li(d, 2d), E=9 MeV; 6Li(α, 2α), (α, 2d), E=18 MeV; measured momemtum spectra. 6Li deduced α, d cluster momemtum distribution. PWIA.
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