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理论物理教研室--吴勇

理论物理教研室-吴勇

所在单位:北京应用物理与计算数学研究所

导师职称:副研究员,硕士生导师

电子邮箱:wu_yong@iapcm.ac.cn

招生专业:理论物理

研究方向:原子分子物理及其应用





教育经历:

2005:    吉林大学原子分子物理所  原子分子物理    博士

2000:    吉林大学物理学院        理论物理        学士

 

工作经历:

2019-至今 北京应用物理与计算数学研究所 研究员 原子分子物理及应用团队首席

2017-2018北京应用物理与计算数学研究所 副研究员 原子分子物理及应用团队首席

2012-2016北京应用物理与计算数学研究所 副研究员 课题组组长

2010-2011 美国佐治亚大学物理天文系 博士后

2007-2009北京应用物理与计算数学研究所 副研究员

2005-2006北京应用物理与计算数学研究所 博士后


社会兼职:

北京大学应用物理与技术研究中心兼职研究员;

中国原子分子数据联合体负责人;


研究方向及简介:

分子超快解离动力学;

离子同原子、分子碰撞动力学;

电子、光子同原子、分子碰撞动力学;

原子分子结构、光谱和辐射性质;

原子分子参数评估及其应用;

原子分子数据库建设 ;

等离子与表面相互作用;


迄今为止在Phys. Rev. Lett.、Phys. Rev. A、J. Chem. Phys.和J. Phys. B等原子分子物理国际主流期刊发表论文70多篇,多次在国内外原子分子物理会议做学术报告。主持承担多项国家自然科学基金、科技部973和国际原子能机构课题,并主持承担多项中国工程物理研究院纵向任务课题研究。


近期研究成果(2012年以来发表论文

1. J. W. Gao; Y. Wu; J. G. Wang; A. Dubois; N. Sisourat, Double Electron Capture in H++H− Collisions, Phys. Rev. Lett, 122, 093402(2019).

2. Lei Chen; Xu Shan*; Xi Zhao; Xiaolong Zhu; Xiaoqing Hu; Yong Wu*; Wentian Feng; Dalong Guo; Ruitian Zhang; Yong Gao; Zhongkui Huang; Jianguo Wang; Xinwen Ma ; Xiangjun  Chen*,Two-body fragmentation dynamics of N2Oq+ (q =2, 3) induced by electron-capture collisions with 5.7-keV/u Xe15+, Physical Review A, 99 012710(2019).

3. Xiaoqing Hu, Cong-Zhang Gao, Wen-Jie Ma, Jianguo Wang and Yong Wu*, Polarization potential and its effects on (e, 2e) reactions at intermediate energy, J. Phy. B, 52 105202 (2019).

4. Xiaohe Lin, Yong Wu*, J. G. Wang, Bin Shao and R. K. Janev, Electron capture in slow collisions of O6+ ions with atomic hydrogen, A&A 625, A29 (2019).

5. W. YuC.-Z. Gao*, T. JiangY. ZouJ.-G. WangY. Wu*, and B. Wei*, A theoretical study of Ar8+-acetylene collisions at 1.2 MeV: Ionization and dissociation dynamics , J. Chem. Phys. 150, 124304 (2019).

6. Xiao He Lin, Yi Geng Peng, Yong Wu*, Song Bin Zhang, Bin Shao, Jian GuoWang, Ratko Janev, Theoretical study of resonances formed in low-energy Li−+H collisions, Chemical Physics 522 10–14(2019)

7. Xiao-He Lin, Gui-Ying Liang, Jian-Guo Wang, Yi-Geng Peng, Bin Shao, Rui Li, and Yong Wu*, Molecule opacities of X2Σ+, A2Π, and B2Σ+ states of CS+, Chin. Phys. B 28, 053101(2019)

8. Rui Li, Gui-Ying Liang, Xiao-He Lin,Yu-Hao Zhu, Shu-Tao Zhao, and Yong Wu*, Explicitly correlated configuration interaction investigation on low-lying states of SiO+ and SiO, Chin. Phys. B 28, 043102(2019)

9. Ju Yan Wu, Yong Wu, Yue Ying Qi, Jian Guo Wang, R. K. Janev and Song Bin Zhang Non-relativistic free–free Gaunt factors in Debye plasmas, MNRAS 486, 141–144 (2019)

10. Ju Yan Wu, Yong Wu, Yue Ying Qi, Jian Guo Wang, R. K. Janev, and Song Bin Zhang, Resonances in nonrelativistic free-free Gaunt factors with screened Coulomb interaction, Phys. Rev. A 99, 012705(2019)

11. Qing Bian, Yong Wu, Jian Guo Wang, and Song Bin Zhang, Bond-distance-dependent Auger decay of core-excited N2 using an ultrashort x-ray pump and continuous-wave IR-control scheme, Phys. Rev. A 99, 033404 (2019)

12. Yu kunYang, Yong Wu, Yizhi Qu, JianguoWang, R. K. Janev and Song Bin Zhang, Resonance studies using the contour deformation method in the complex momentum plane, Physics Letters A 383 (2019) 1929–1936

13. K Wang, Y Z Qu, C H Liu, L Liu , Y Wu, H-P Liebermann and R J Buenker, The influence of pseudo states on the single electron capture processes in low-energy collisions of N5+ with He, J. Phys. B: At. Mol. Opt. Phys. 52 075202 (2019)

14. State-selective electron transfer in He++He collisions at intermediate energies, J. W. Gao, Y. Wu, J. G. Wang, N. Sisourat, and A. Dubois, Phys. Rev. A 97, 052709 (2018).

15. Comparative study of inelastic squared form factors of the vibronic states of B1Σu+, C1Πu, and EF1Σg+for molecular hydrogen: Inelastic x-ray and electron scattering, Long-Quan Xu, Xu Kang, Yi-Geng Peng, Xin Xu, Ya-Wei Liu, Yong Wu*, Ke Yang, Nozomu Hiraoka, Ku-Ding Tsuei, Jian-Guo Wang, and Lin-Fan Zhu**, Phys. Rev. A 97, 032503 (2018).

16. "Molecular opacities of the transitions for the lowest four singlet states of BeH+, Xue-song Xu, An-qi Dai, Yi-Geng Peng, Yong Wu* and J. G. Wang, J. Quant. Spectrosc. Radiat. Transfer, 206, 172-179 (2018)

17. Laser-induced inelastic diffraction from strong-field double ionization, Wei Quan, XiaoLei Hao, XiaoQing Hu, RenPing Sun, YanLan Wang, YongJu Chen, ShaoGang Yu, SongPo Xu, ZhiLei Xiao, XuanYang Lai, XingYu Li, Wilhelm Becker, Yong Wu*, JianGuo Wang, XiaoJun Liu†, Jing Chen&, Phys. Rev. Letts 119, 243203 (2017).

18. Insights into reactive scattering of Pu + H2 at low energies, Cong-Zhang Gao, Yong Wu*, Ling Liu, Pei Wang and Jian-Guo Wang,EUROPHYS LETT, 119 (2017) 48007

19. Electron-impact ionization of Ne(2p) and Ar(3p) at intermediate energies: Role of the postcollision interaction,Xiaoqing Hu, Cong-Zhang Gao, Zhanbin Chen, Jianguo Wang, Yong Wu* and Yang Wang*, Phys. Rev. A 96, 052701 (2017)

20. Single- and double-electron transfer in low- and intermediate-energy C4++He collisions,J. W. Gao, Y. Wu, N. Sisourat, J. G. Wang and A. Dubois, Phys. Rev. A96, 052703 2017

21. I. Rabadán, L. Méndez, J. W. Gao, Y. Wu, and J. G. Wang, Ab initio calculation of electron-capture cross sections in H+ + BeH collisions, Phys. Rev. A 96, 032714 (2017)

22. Ling Liu, Xiaohe Lin, Yong Wu*, Jian-Guo Wang, and Ratko K. Janev, Cross sections for state-selective electron capture and excitation in He+–H collisions, Eur. Phys. J. D (2017) 71: 225,

23. Xingyu Li, Maomao Gong, Ling Liu, Yong Wu, Jianguo Wang, Yizhi Qu, and Xiangjun Chen, Calculation of (e, 2e) triple-differential cross sections of formic acid: An application of the multicenter distorted-wave method, Phys. Rev. A 95, 012703 (2017)

24. Maomao Gong, Xingyu Li, Song Bin Zhang, Ling Liu, Yong Wu, Jianguo Wang, Yizhi Qu, and Xiangjun Chen, Theoretical study of (e, 2e) processes for valence orbitals of CH4 using a multicenter distorted-wave method, Phys. Rev. A 96, 042703 (2017)

25. Song Bin Zhang*, Yong Wu**, and Jian Guo Wang, Time-dependent quantum wave packet dynamics to study charge transfer in heavy particle collisions, J. Chem. Phys. 145, 224306 (2016)

26.Y. Wu, X. H. Lin, B. Yan, J. G. Wang and R. K. Janev, “Theoretical investigation of electron transfer and detachment processes in low energy H- + Li and- Li- + H collisions ” J. Phy. B, 49 035203 (2016)

27.Yi-Geng Peng, Yong Wu*, Lin-Fan Zhu, SongBin Zhang, Jian-GuoWang, H.-P. Liebermann and R. J. Buenker, “Complex multireference configuration interaction calculations for the K-vacancy Auger states of Nq+(q=2-5) ions, J. Chem. Phys. 144, 054306 (2016)

28. Xuhai Hong, Feng Wang, Yong Wu*, Bingcong Gou and Jianguo Wang, “H+-H2O collisions studied by time-dependent density-functional theory combined with the molecular dynamics method ”, Phys. Rev. A 93, 062706 (2016)

29. Hu Zhou, Wang Zhou, Meixiao Zhang, Lihua Zhou, Yulong Ma, Guangyi Wang, Yong Wu, Bowen Li and Ximeng Chen, “Complete-velocity-range description of negative-ion conversion of neutral atoms on an alkali-metal-halide surface under grazing geometry”, Phys. Rev. A 93, 062708 (2016)

30. Yong Wu, Predrag Krstic, Fu Yang Zhou and Fred Meyer, J. Nuclear Materials 467 (2015) 480-487。

31.T. C. Li, Y. Z. Qu, Y. Wu, L. Liu, J. G. Wang, H.-P. Liebermann, and R. J. Buenker, Phys. Rev. A 91, 052702 (2015)

32.Li Tie-Cheng, Liu Chun-Hua, Qu Yi-Zhi, Liu Ling, Wu Yong, Wang Jian-Guo, Liebermann H. P. and Buenker R. J., Chin. Phys. B 24, (2015) 103401

33. L L Yan, X Y Li, Y Wu, J G Wang and Y Z Qu, “Radiative association processes to specific rovibrational levels in low-energy Na+-87Rb collisions”, Phys. Rev. A, 90, 032714 (2014);

34. G. Y. Liang, F. Li, F. L. Wang,  Y. Wu,  J. Y. Zhong, and G. Zhao,X-Ray and EUV spectroscopy of various astrophysical and laboratory plasma: collisional, photoionization and charge-exchange plasma,  ApJ 783 (2014) 124;

35. G.Y. Liang,  F. Li,  F. L. Wang, Y. Wu,  J.Y. Zhong and G. Zhao,A simulation pacakge—SASAL for X-ray and EUV spectroscopy of astrophysical and laboratory plasmas, Research in Astronomy and Astrophysics 14,1351–1366(2014)

36. R. S. Cumbee, D. B. Henley, P. C. Stancil, R. L. Shelton, J. L. Nolte, Y. Wu, and D  R. Schultz,“Can Charge Exchange Explain Anomalous Soft X-ray Emission in the Cygnus Loop” ApJL 787 L31 (2014)

37. L L Yan, Y Wu, Y Z Qu, J G Wang and R J Buenker, “Single- and double-electron capture processes in low-energy collisions of C4+ with He”, Phys. Rev. A, 88, 022706 (2013);

38. L L Yan, L. Liu, Y. Wu, Y. Z. Qu, J. G. Wang, and R. J. Buenker,   “Charge transfer and association of Na+ with 87Rb atom from extreme-low to intermediate energies”, Phys. Rev. A, 88, 012709 (2013);

39. C L Zhang, H X Hong, F Wang, Y Wu and J G Wang, “Theoretical investigation of He2+-Ar collisions in the energy rangeof 4 - 300keV/amu”Phys. Rev. A, Phys. Rev. A, 87, 032711 (2013)

40. R J Buenker, H Liebermann, Y Zhang, Y Wu, L Yan, C Liu, Y Qu and J G Wang, (2013), “Adjustment of born-oppenheimer electronic wave functions to simplify close coupling calculations”, J. Comput. Chem. doi: 10.1002/jcc.23215 (2013)

41. Y. Wu, P. C. Stancil, D. R. Schultz, Y. Hui, H. P. Liebermann, and R. J. Buenker, “Theoretical Investigation of Total and State-Dependent Charge Exchange in O6+ Ion Collisions with Atomic Hydrogen”, J. Phys. B 45, 235201 (2012)