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Elastic scattering angular distributions of neutron halo nucleus 11Be studied via dynamic polarization potentials:Eur. Phys. J. A(57):46
氘核削裂反应理论研究及其进展.[期刊]:原子核物理评论,2021(38):229-243
New determination of astrophysical 14C(n, gamma)15C reaction rate from the spectroscopic factor of 15C.[期刊]:SCIENCE CHINA Physics, Mechanics & Astronomy,2020,63:212021
A. M. Mukhamedzhanov.Trojan horse method as an indirect approach to study resonant reactions in nuclear astrophysics.[期刊]:Eur. Phys. J. A,2020(56):233
What kind of optical model potentials should be used for deuteron stripping reactions?.[期刊]:SCIENCE CHINA Physics, Mechanics & Astronomy,2020,63:222011
First experimental constraint of the spectroscopic amplitudes for the alpha-cluster in the B-11 ground state, Y.P. Shen, B. Guo, T.L. Ma, D.Y. Pang, D.D. Ni, Z.Z. Ren, Y.J. Li, Z.D. An, J. Su, J.C. Liu, Q.W. Fan, Z.Y. Han, X.Y. Li, Z.H. Li, G. Lian, Y. Su, Y.B. Wang, S.Q. Yan, S. Zeng, W.P. Liu, Phys. Lett. B 797, 134820 (2019)
Extension of the ratio method to proton-rich nuclei, X.Y. Yun*, F. Colomer*, D.Y. Pang*, P. Capel*, J. Phys. G-Nucl. Part. Phys. 46, 105111 (2019)
Astrophysical factors of C-12+C-12 fusion extracted using the Trojan horse method, A.M. Mukhamedzhanov*, D.Y. Pang*, and A.S. Kadyrov*, Phys. Rev. C 99, 064618 (2019)
Y.P. Xu, D.Y. Pang*, X.Y. Yun, C. Wen, C.X. Yuan, J.L. Lou, Proton-neutron asymmetry independence of reduced single-particle strengths derived from (p, d) reactions, Phys. Lett. B 790, 308 (2019).
Jun Feng, Yanlin Ye, Biao Yang, ChengJian Lin, HuiMin Jia, Danyang Pang, ZhiHuan Li, JianLing Lou, Qite Li, XiaoFei Yang, Jing Li, HongLiang Zang, Qiang Liu, Wei Jiang, ChenGuang Li, Yang Liu, ZhiQiang Chen, HongYi Wu, ChunGuang Wang, Wei Liu, Xiang Wang, JingJing Li, DiWen Luo, Ying Jiang, ShiWei Bai, JinYan Xu, NanRu Ma, LiJie Sun, DongXi Wang, Enhanced monopole transition strength from the cluster decay of C-13, Sci. China Phys. Mech. 62, 12011 (2019).,2019
T. L. Ma, B. Guo, Z. H. Li, Y. J. Li, D. Y. Pang et al., Precision measurement of the angular distribution for the 16O(d, p)17O transfer reaction to the ground state of 17O, Nucl. Phys. A 986, 26 (2019).,2019
Y. P. Shen, B. Guo, Z. H. Li, Y. J. Li, D. Y. Pang et al., Astrophysical SE2 factor of the 12C (α, γ)16O reaction through the 12C(11B, 7Li)16O transfer reaction, Phys. Rev. C 99, 025805 (2019).,2019
Y. Z. Sun, S. T. Wang, Z. Y. Sun, X. H. Zhang, D. Yan, B. H. Sun, J. W. Zhao, Y. P. Xu, D. Y. Pang et al., Two-neutron removal cross sections from 15, 16C at around 240 MeV/nucleon, Phys. Rev. C 99, 024605 (2019).,2019
S. T. Wang, Y. P. Xu, D. Y. Pang, Energy dependence of the reduced single-particle strength for strongly-bound proton removal on 16C, Phys. Scr. 94, 015302 (2019).,2019
J. Chen, J. L. Lou, Y. L. Ye, Z. H. Li, D. Y. Pang et al., A new measurement of the intruder configuration in 12Be, Phys. Lett. B 781, 412 (2018).,2019
YiDi Chen, Yun Zhang, JianLing Lou*, Danyang Pang*, Yanlin Ye, Wei Liu, Ying Jiang, Gen Li, Analysis of total reaction cross sections for deuterons on 1p-shell-nuclei, Sci. Chin. Phys. Mech. 61, 112011 (2018).,2019
J. Chen, J. L. Lou, Y. L. Ye Z. H. Li, D. Y. Pang et al., Low-lying states in 12Be using one-neutron transfer reaction, Phys. Rev. C 98, 014616 (2018).,2019
Y. Jiang, J. L. Lou, Y. L. Ye, D. Y. Pang et al., A New Measurement of 11Be(p, d) Transfer Reaction, Chin. Phys. Lett. 35, 082501 (2018).,2019
Y. Tian*, D. Y. Pang*, Z. Y. Ma, Effects of nonlocality of nuclear potentials on direct capture reactions, Phys. Rev. C 97, 064615 (2018).,2019
Y. Y. Yang, X. Liu, D. Y. Pang* et al., Elastic scattering of the proton drip line nuclei 7Be, 8B, and 9C on a lead target at energies around three times the Coulomb barriers, Phys. Rev. C 98, 044608 (2018).,2019
C. Wen, Y. P. Xu, D. Y. Pang*, and Y.L. Ye, Quenching of neutron spectroscopic factors of radioactive carbon isotopes with knockout reactions within a wide energy range, Chin. Phys. C 41, 054104 (2017).,2019
J. Chen, J. L. Lou, Y. L. Ye, J. Rangel, A. M. Moro, D. Y. Pang et al., Elastic scattering and breakup of 11Be on deuterons at 26.9A MeV, Phys. Rev. C 94, 064620 (2016).,2019
Y. Y. Yang, X. Liu, D. Y. Pang*, Distinction between elastic scattering of weakly bound proton- and neutron-rich nuclei: The case of 8B and 11Be, Phys. Rev. C 94, 034614 (2016).,2019
Y. Zhang, D. Y. Pang*, J. L. Lou*, Optical model potential for deuteron elastic scattering with 1p-shell nuclei, Phys. Rev. C 94, 014619 (2016).,2019
A. M. Mukhamedzhanov, D.Y. Pang, Asymptotic normalization coefficients and radiative widths, Phys. Rev. C 92, 014625 (2015).,2019
D.Y. Pang, W. M. Dean, A. M. Mukhamedzhanov, Optical model potential of A=3 projectiles for 1p-shell nuclei, Phys. Rev. C 91, 024611 (2015).,2019
Tian Yuan, Pang DanYang, Ma, Zhong-Yu, Systematic nonlocal optical model potential for nucleons, INT. J. MOD. PHYS. E 24, 1550006 (2015).,2019
J. Lee*, D.Y. Pang*, Y. L. Han, M. B. Tsang, Proton Spectroscopic Factors Deduced from Helium-3 Global Phenomenological and Microscopic Optical Model Potentials, Chin. Phys. Lett. 31, 092103 (2014).,2019
A. M. Mukhamedzhanov, D.Y. Pang, C. A. Bertulani, and A. S. Kadyrov, Surface-integral formalism of deuteron stripping, Phys. Rev. C 90, 034604 (2014).,2019
D.Y. Pang, A. M. Mukhamedzhanov, Asymptotic normalization coefficients and spectroscopic factors from deuteron stripping reactions, Phys. Rev. C 90, 044611 (2014).,2019
Y. Y. Yang, J. S. Wang, Q. Wang, D.Y. Pang et al., Quasi-elastic scattering of 10,11C and 10B from a natPb target, Phys. Rev. C 90, 014606 (2014).,2019
R. S. Mackintosh*, D.Y. Pang*, Significant features of 8B scattering from 208Pb at 170.3 MeV, Phys. Rev. C 88, 014608 (2013).,2019
D.Y. Pang, N. K. Timofeyuk, R. C. Johnson et al., Rapid convergence of the Weinberg expansion of the deuteron stripping amplitude, Phys. Rev. C 87, 064613 (2013).,2019
Y. P. Xu, D.Y. Pang*, Toward a systematic nucleus-nucleus potential for peripheral collisions, Phys. Rev. C 87, 044605 (2013).,2019
Y.Y. Yang, J.S. Wang, Q. Wang, D.Y. Pang et al., Elastic scattering of the proton drip-line nucleus 8B off a natPb target at 170.3 MeV, Phys. Rev. C 87, 044613 (2013), Pub. Note Phys. Rev. C 88, 019901 (2013).,2019
B. Guo, Z. H. Li, M. Lugaro, J. Buntain, D.Y. Pang et al., New Determination of the 13C(α, n)16O Reaction Rate and its Influence on the s-process Nucleosynthesis in AGB Stars, Astrophys. J. 756, 193 (2012).,2019
R.S. Mackintosh*, D.Y. Pang*, Increase in |SL| induced by channel coupling: The case of deuteron breakup, Phys. Rev. C 86, 047602 (2012).,2019
D. Y. Pang, Y. L. Ye, F. R. Xu, Energy-dependent optical model potentials for α and deuteron with 12C, J. Phys.(London) G 39, 095101 (2012).,2019
J. L. Lou, Y. L. Ye, D. Y. Pang et al., Quasielastic scattering of 6He from 12C at 82.3 MeV/nucleon, Phys. Rev. C 83, 034612 (2011).,2019
D. Y. Pang, Y. L. Ye, F. R. Xu, Application of the Bruyeres Jeukenne-Lejeune-Mahaux model potential to composite nuclei with a single-folding approach, Phys. Rev. C 83, 064619 (2011).,2019
D. Y. Pang*, R. S. Mackintosh*, Dynamic polarization potential due to 6Li breakup on 12C, Phys. Rev. C 84, 064611 (2011).,2019
D. Y. Pang, P. Roussel-Chomaz, H. Savajols et al., Global optical model potential for A = 3 projectiles, Phys. Rev. C 79, 024615 (2009); Erratum Phys. Rev. C 81, 019902 (2010).,2019
D. Y. Pang, F. M. Nunes, A. M. Mukhamedzhanov, Are spectroscopic factors from transfer reactions consistent with asymptotic normalization coefficients? Phys. Rev. C 75, 024601 (2007).,2019
D. Y. Pang, Y. L. Ye, D. X. Jiang et al., Single-Proton Pickup Reaction of the Halo Nucleus 6He on a 9Be Target at 25 MeV/nucleon, Chin. Phys. Lett. 24, 2785 (2007).,2019
Y. L. Ye, D. Y. Pang, D. X. Jiang et al., Quasielastic scattering of 6He on 9Be at 25 MeV/nucleon, Phys. Rev. C 71, 014604 (2005).,2019
Y. L. Ye, D. Y. Pang, G. L. Zhang et al., Study of the halo nucleus 6He through the direct nuclear reactions, J. Phys.(London) G 31, S1647 (2005).,2019
D. Y. Pang, Y. L. Ye, D. X. Jiang et al., Quasielastic Scattering of the Halo Nucleus 6He at 25 MeV/u from a 9Be Target, Chin. Phys. Lett. 21, 2151 (2004).,2019