姓名:庞丹阳
职称:教授
Email: dypang@buaa.edu.cn
办公地点:沙河校区C座634
研究方向:直接核反应理论、少体核反应理论、轻核反应理论、轻核聚变反应理论
个人简介:本人从事直接核反应理论以及少体核反应理论研究,包括相关的核反应机制、光学势等相互作用参数等。当前主要研究内容为轻核反应理论、轻核聚变反应理论,以及替代反应发研究(n,γ)反应等。
教育背景:
2001/09-2007/07北京大学物理学院,理学博士,粒子物理与原子核物理专业
1997/09-2001/07北京大学技术物理系,理学学士,原子核物理与核技术专业
工作经历:
2020/08-至今 北京航空航天大学物理学院,教授
2013/08-2020/07北京航空航天大学物理科学与核能工程学院,副教授
2011/09-2013/08北京航空航天大学物理科学与核能工程学院,讲师
2009/07-2011/06北京大学物理学院,博士后
2007/10-2009/06法国GANIL国家实验室,博士后
奖励与荣誉:
2020年致真书院“优秀班主任”
2016年北京航空航天大学“优秀班主任”
2015年北京市科学技术奖(三等),排名9/15.
承担项目:
1:2025-2027:新奥能源研究院氢硼聚变研究基金:《氢硼聚变反应机制研究》,(主持)
2:2023-2028:国家重点研发计划:《原子核团簇和强子分子态物理》,(参与)
3:2021-2024:国家自然科学基金核技术创新联合重点项目:《重要轻核中子反应的微观理论与宏观积分实验研究》,(主持)
4:2018-2021:国家自然科学基金面上项目:《氘核削裂反应的Faddeev-AGS理论研究》,(主持)
5:2013-2016:国家自然科学基金面上项目:《中高能(p,d)反应理论研究》,(主持)
6:2015-2018:国家自然科学基金大科学装置联合基金重点项目:《轻质量丰质子核的弹性散射实验研究》,(参与)
代表性学术成果:
[1] Y. P. Xu, Z. X. Liu, D. Y. Pang*, Z. Zhang, and R. R. Xu, Systematic theoretical study of the finite-range effects in (��,��) transfer reactions, Phys. Rev. C 112, 064613 (2025)
[2] H. Zhang, H. Wu, R. Xu, P. Liu, X. Wu, X. Sun, and D. Pang, Benchmark testing for 2H neutron cross section calculated using Faddeev equation, Annals of Nuclear Energy 223, 111617 (2025)
[3] R.Y. Chen, D.Y. Pang*, C.X. Yuan, Y.P. Xu, W.D. Chen, W.L. Hai, J.J. Yan and W.J. Kong, Multiple scattering effects in Glauber model descriptions of single-nucleon removal reactions, Nucl. Sci. Tech. 36, 144 (2025)
[4] W.L. Hai, D.Y. Pang*, X.B. Wang, C.X. Yuan, Y.P. Xu, W.D. Chen, and R.Y. Chen, Determining the radii of single-particle potentials with Skyrme Hartree-Fock calculations, Phys. Rev. C 110, 044613 (2024)
[5] Y.P. Xu, S.L. Chen, and D.Y. Pang*, Application of a microscopic optical potential of chiral effective field theory in (p, d) transfer reactions, Nucl. Sci. Tech. 35, 13 (2024)
[6] Y.H. Wang, D.Y. Pang*, W.D. Chen, Y.P. Xu, W.L. Hai, and R.Y. Chen, Nuclear radii from total reaction cross section measurements at intermediate energies with complex turning point corrections to the eikonal model, Phys. Rev. C 109, 014621 (2024)
[7] W. Chen*, D. Pang*, H. Guo*, T. Ye, W. Sun, and Y. Ying, Elastic scattering and total reaction cross sections of 6Li examined via a microscopic continuum discretized coupled-channels model, Chin. Phys. C 48, 014101 (2024)
[8] W.J. Kong and D.Y. Pang*, Theoretical uncertainties of (d,He) and (He,d) reactions owing to the uncertainties of optical model potentials, Nucl. Sci. Tech. 34, 95 (2023)
[9] W. Chen, D.Y. Pang, H. Guo, Y. Tao, W. Sun, and Y. Ying, Continuum-discretized coupled-channels calculations for 6Li fusion reactions with closed channels, Phys. Rev. C 107, 064610 (2023)
[10] G. Yang, D.Y. Pang*, Y.Y. Yang*, K. Wang, F.F. Duan, X.X. Wang, and Z.Y. Sun, Systematic single-folding model nucleus-nucleus potential for peripheral collisions, Phys. Rev. C 107, 044603 (2023)
[11] Y. Li, D. Pang*, W. Chen, X. Tao, R. Xu, and Z. Ge, Calculation of Neutron Induced Nuclear Reaction on Deuteron with Faddeev Equation, Atomic Energy Science and Technology 56, 860 (2022)
[12] Xu Yiping, Pang Danyang*, and Lou Jianling, A Brief Review on the Development of Theories of Deuteron Stripping Reactions, Nucl. Phys. Rev. 38, 229 (2021)
[13] Y. Li and D.Y. Pang*, Elastic scattering angular distributions of neutron halo nucleus Be studied via dynamic polarization potentials, Euro. Phys. J. A 57, 46 (2021)
[14] A.M. Mukhamedzhanov*, A.S. Kadyrov*, D.Y. Pang*, Trojan horse method as an indirect approach to study resonant reactions in nuclear astrophysics, Science Eur. Phys. J. A 56, 233 (2020).
[15] Y.P. Shen, B. Guo, R.J. de Boer, Z.H. Li, Y.J. Li, X.D. Tang, D.Y. Pang, S. Adhikari, C. Basu, J. Su, S.Q. Yan, Q.W. Fan, J.C. Liu, C. Chen, Z.Y. Han, X.Y. Li, G. Lian, T.L. Ma, W. Nan, W.K. Nan, Y.B. Wang, S. Zeng, H. Zhang, W.P. Liu, Constraining the External Capture to the 16O ground State and the E2 S Factor of the 12C(α, γ)16O reaction, Phys. Rev. Lett. 124, 162701 (2020).
[16] J.-J. Li, D.-Y. Pang*, Y.-L. Ye*, J.-L. Lou, X.-F. Yang, Y. Liu, B. Yang, Improved eikonal approach for charge exchange reactions at intermediate energies, Chin. Phys. C 43, 124102 (2019).
[17] A.M. Mukhamedzhanov*, D.Y. Pang*, A.S. Kadyrov*, Astrophysical factors of 12C + 12C fusion extracted using the Trojan horse method, Phys. Rev. C 99, 064618 (2019).
[18] Yidi Chen, Yun Zhang, Jianling Lou*, DanYang Pang*, YanLin Ye, Wei Liu, Ying Jiang, and Gen Li, Analysis of total reaction cross sections for deuterons on1p-shell nuclei, Science China Physics, Mechanics & Astronomy, 61,11:00000 (2018).
[19] Y.P. Xu, D. Y. Pang,* X. Y. Yun, S. Kubono, C. A. Bertulani, and C. X. Yuan, Possible determination of high-lying single-particle components with (p, d) reactions, Phys. Rev. C 98, 044622 (2018).
[20] Yuan Tian*, D.Y. Pang* and Zhong-yu Ma, Effects of nonlocality of nuclear potentials on direct capture reactions, Phys. Rev. C 97, 064615 (2018).
[21] Y.Y. Yang, X. Liu, D. Y. Pang*, D. Patel, R.F. Chen, J.S. Wang†, P. Ma, J.B. Ma, S.L. Jin, Z. Bai, V. Guimarães, Q. Wang, W.H. Ma, F.F. Duan, Z.H. Gao, Y.C. Yu, Z.Y. Sun, Z.G. Hu, S.W. Xu, S.T. Wang, D. Yan, Y. Zhou, Y.H. Zhang, X.H. Zhou, H.S. Xu, G.Q. Xiao, and W.L. Zhan, Elastic scattering of the proton dripline nuclei 7Be, 8B, and 9C on a lead target at energies around three times the Coulomb barriers, 98, 044608 (2018).
[22] C. Wen, Y-P. Xu, D.-Y. Pang*, 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).
[23] Y.Y. Yang, X. Liu, D.Y. Pang*, Distinction between elastic scattering of weakly bound proton- and neutron-rich nuclei: The case of8B and11Be, Phys. Rev. C 94,034614 (2016).
[24] 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)
[25] A.M. Mukhamedzhanov, D.Y. Pang, Asymptotic normalization coefficients and radiative widths, Phys. Rev. C 92, 014625 (2015).
[26] D.Y. Pang, W.M. Dean, A.M. Mukhamedzhanov, Optical model potential of A=3 projectiles for1p-shell nuclei, Phys. Rev. C 91, 024611 (2015).
[27] J. Lee*, D.-Y. Pang*, Y.-L. Han, M.B. Tsang, Proton Spectroscopic Factors Deduced fromHelium-3 Global Phenomenological and Microscopic Optical Model Potentials, Chin. Phys. Lett. 31, 092103 (2014).
[28] A.M. Mukhamedzhanov, D.Y. Pang, C.A. Bertulani, A.S. Kadyrov, Surface-integral formalism of deuteron stripping, Phys. Rev. C 90, 034604 (2014).
[29] D.-Y. Pang, Effects of relativistic kinematics in heavy ion elastic scattering, Chin. Phys. C 38, 024104 (2014)
[30] D.Y. Pang, A.M. Mukhamedzhanov, Asymptotic normalization coefficients and spectroscopic factors from deuteron stripping reactions, Phys. Rev. C 90, 044611 (2014).
[31] X.-F. Zhang, D.-Y. Pang*, Notch Test for Radial Sensitivity on Neutron Density Distribution in 48Ca Probed byα-Particle Elastic Scattering, Chin. Phys. Lett. 31,052401 (2014)
[32] R.S. Mackintosh*, D.Y. Pang*, Significant features of 8B scattering from 208Pb at 170.3 MeV, Phys. Rev. C 88,014608 (2013).
[33] D.Y. Pang, N.K. Timofeyuk, R.C. Johnson, J.A. Tostevin, Rapid convergence of the Weinberg expansion of the deuteron stripping amplitude, Phys. Rev. C 87, 064613 (2013)
[34] Y.P. Xu, D.Y. Pang*, Toward a systematic nucleus-nucleus potential for peripheral collisions, Phys. Rev. C 87, 044605 (2013)
[35] R.S. Mackintosh, D.Y. Pang*, Increase in lSLl induced by channel coupling: The case of deuteron breakup, Phys. Rev. C 86,047602 (2012)
[36] D.Y. Pang*, Y.L. Ye, F.R. Xu, Energy-dependent optical model potentials forαand deuteron with 12C, J. Phys. (London) G39,095101 (2012)
[37] 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. C83, 064619 (2011)
[38] D.Y. Pang*, R.S. Mackintosh, Dynamic polarization potential due to6Li breakup on12C, Phys. Rev. C 84, 064611 (2011)
