**Zhang Gaolong:**male, PhD, Associateprofessor, Beihang University.

Address: Xueyuan Road No. 37,Haidian District, Beijing 100191, P. R. China

**Experience:**I have visited CNS of theUniversity of Tokyo, RIKEN, HIMAC of Chiba, RCNP of Osaka University in Japan,GSI in German and Tomsk University in Russia, as a research visitor at INFN-LNLin Italy. Also I setup the cooperative relation with them. Some experiments andresearches have been and will be done among us.

**Researches:**My researches focus ondirect nuclear reactions including fusion, elastic scattering, breakup, etc. Meanwhile,the detectors including gas, semiconductor and scintillation, were made. (1)Study of fusion reaction mechanism for weakly bound nuclei, by the coincidencebetweengrays spectra and lightcharged particles such as^{6}Li+^{96}Zr,^{144,154}Sm;(2) elastic scattering and breakup of weakly bound nuclei such as^{17}F+^{12}C,^{58}Niand^{89}Y at CNS, University of Tokyo, and IMP in China; (3) Study ofrepulsive three body force by using 100-400AMeV^{12}C+^{12}Celastic scattering. Recently the 100AMeV^{12}C+^{12}Cexperiment have been finished at RCNP of Osaka University. “Grand Raiden”magnetic spectrometer was used to measure the inelastic part. 200-400AMeV^{12}Cwill be performed at RIKEN in Japan; (4) Developed the technique of neutronactivation analysis; Design the array of telescopes including ionizationchambers, double-sided silicon detectors (DSSD) and square silicon detectors,and multi-pixel photon counters (MPPC) in connection with scintillations, etc.(5) Focus on studying radiation oncology in collaboration with People’sLiberation Army hospital and Peking University Health Science Center.

**Publication:**

1. S. P. Hu,**G. L. Zhang**(*) et al., A powerfulcombination measurement for exploring the fusion reaction mechanisms induced byweakly bound nuclei, Nucl. Instru. Methods in Physics Research A 914 (2019) 64.

2.**G. L. Zhang**, et al., Angulardistribution of elastic scattering induced by^{17}F on medium masstarget nuclei at energies near the Coulomb barrier, Phys. Rev. C 97 (2018)044618.

3.**G. L. Zhang**, et al., One-neutronstripping processes to excited states of^{90}Y* in the^{89}Y(^{6}Li,^{5}Li)^{90}Y*reaction, Physical Review C 97 (2018) 014611.

4. W. W. Qu,**G. L. Zhang**(*), et al.,Repulsive three-body force and channel-coupling effects via^{12}C +^{12}Cscattering at 100A MeV, Physical Review. C 95, (2017) 044616.

5. W. W. Qu,**G. L. Zhang**(*), S.Terashima, C. L. Guo, I. Tanihata, X. Y. Le, T. F. Wang, X. H. Zhang, Z. Y.Sun, L. M. Duan, R. J. Hu, C. G. Lu, P. Ma, Detector system for the angulardistribution measurement of 12C+12C elastic scattering at 200-400A MeV, Nucl.Instru. Methods in Physics Research A 832 (2016) 243.

6. M. F. Guo,**G. L. Zhang**(*), P. R. S.Gomes, J. Lubian, E. Ferioli, Negligible suppression of the complete fusion of^{6,7}Lion light targets at energies above the barrier, Phys. Rev. C 94 (2016) 044605.

7. W. W. Qu,**G. L. Zhang**(*), S.Terashima, T. Furumoto, Y. Ayyad, Z. Q. Chen, C. L. Guo, A. Inoue, X. Y. Le, H.J. Ong, D. Y. Pang, H. Sakaguchi, Y. Sakuragi, B. H. Sun, A. Tamii, I.Tanihata, T. F. Wang, R. Wada, Y. Yamamoto, Study of three-body repulsive forcevia^{12}C +^{12}C scattering at 100A MeV, Phys. Lett. B751(2015) 1.

8. S. P. Hu,**G. L. Zhang**(*), J. C.Yang, H. Q. Zhang, P. R. S. Gomes, J. Lubian, X. G. Wu, J. Zhong, C. Y. He, Y.Zheng, C. B. Li, G. S. Li, W. W. Qu, F. Wang, L. Zheng, L. Yu, Q. M. Chen, P.W. Luo, H. W. Li, Y. H. Wu, W. K. Zhou, B. J. Zhu, H. B. Sun, One-neutronstripping processes to excited states of the^{6}Li+^{96}Zrreaction at near-barrier energies, Phys. Rev. C 93 (2016) 014621.

9. C. L. Guo,**G. L. Zhang**(*), S. P. Hu,J. C. Yang, H. Q. Zhang, P. R. S. Gomes, J. Lubian, X. G. Wu, J. Zhong, C. Y.He, Y. Zheng, C. B. Li, G. S. Li, W. W. Qu, F. Wang, L. Zheng, L. Yu, Q. M.Chen, P. W. Luo, H. W. Li, Y. H. Wu, W. K. Zhou, B. J. Zhu, H. B. Sun, Couplingeffects on the fusion of^{6}Li +^{154}Sm at energies slightlyabove the Coulomb barrier, Phys. Rev. C 92 (2015) 014615.

10. S. P. Hu,**G. L. Zhang**(*), J. C.Yang, P. R. Gomes, J. Lubian, X. G. Wu, J. Zhong, C. Y. He, Y. Zheng, C. B. Li,G. S. Li, W. W. Qu, F. Wang, L. Zheng, L. Yu, Q. M. Chen, P. W. Luo, H. W. Li,Y. H. Wu, W. K. Zhou, B. J. Zhu, H. B. Sun, Small suppression of the completefusion of the^{6}Li+^{96}Zr system at near-barrier energies, Phys.Rev. C 91 (2015) 044619.

11. W. W. Qu,**G. L. Zhang**(*), H. Q.Zhang, R. Wolski, Comparable studies of Coulomb barrier heights for nuclearmodels applied for sub-barrier fusion, Phys. Rev. C 90 (2014) 064603.

12.**G. L. Zhang**, Liu. X. X, C. J. Lin, Systematicanalysis of the effect of a positive Q-value neutron transfer in fusionreactions, Phys. Rev. C89 (2014) 054602.

13. X. P. Yang,**G. L. Zhang**(*), H. Q.Zhang, Systematic study of reaction functions of weakly bound nuclei, Phys.Rev. C 87 (2013) 014603.

14.**G. L. Zhang**, X. Y. Le, H. Q. Zhang, Calculationofαpreformation for nucleinear*N*=162 and*N*=184,Phys. Rev. C 80 (2009) 064325.

15.**G. L. Zhang**, Y. J. Yao, M. F. Guo,M. Pan, G. X. Zhang, X. X. Liu, Comparative studies for different proximitypotentials applied to large cluster radioactivity of nuclei, Nucl. Phys. A 951(2016) 86.

16.**G. L. Zhang**, W. W. Qu, M. F. Guo, H.Q. Zhang, R. Wolski, J. Q. Qian, Comparative studies for different proximitypotentials applied to sub-barrier fusion reactions, Eur. Phys. J. A 52 (2016)39.

17.Y. J. Yao,**G. L. Zhang**(*), Comparativestudies for different proximity potentials applied toadecay, Eur. Phys. J. A 51(2015) 122.

18. C. L. Guo,**G. L. Zhang**(*), Analysisof proton radioactivity of nuclei by using proximity potential with a newuniversal function, Eur. Phys. J. A 50 (2014) 187.

19.**G. L. Zhang**, H. B. Zheng, W.W.Qu, Studyof the universal function of nuclear proximity potential betweenα and nucleifrom density-dependent nucleon-nucleon interaction, Eur. Phys. J. A 49 (2013)10.

20.**G. L. Zhang**, C. L. Zhang, H. Q.Zhang et al., Quasi-elastic scattering of the proton drip line nucleus 17Fon12C at 60 MeV, Eur. Phys. J. A 48 (2012) 65.

21.**G. L. Zhang**, X. Y. Le, Thepreformation of cluster radioactivity for heavy nuclei, Nucl. Phys.A 848 (2010)292

22. W. W. Qu,**G. L. Zhang**(*), X. Y. Le,The parametrization of Coulomb barrier heights and positions using the doublefolding model, Nucl. Phys. A 868 (2011) 1.

23. C. L. Guo,**G. L. Zhang**(*), X. Y.Le, Study of the universal function of nuclear proximity potential fromdensity-dependent nucleon–nucleon interaction, Nucl. Phys.A897 (2013) 54.

24. L. Zheng,**G. L. Zhang**(*), J. C.Yang, W. W. Qu, Calculation of half-lives of cluster decay by using proximitypotential with an universal function, Nucl. Phys. A915 (2013) 70.

25.**G. L. Zhang**, X. Y. Le, H. Q. Zhang, Determinationofαpreformation for heavynuclei, Nucl. Phys. A 823 (2009) 16.

26. C.L.Guo,**G.L.Zhang**(*), M. Li，Calculation ofahalf-lives for Z³94 nuclei by proximity potentialwith a new universal function, Int. J. Mod. Phys. E 24 (4) (2015) 1550040.

27. X. X. Liu.,**G. L. Zhang**(*), H. Q.Zhang, Study of fusion Q-value rule in sub-barrier fusion of heavy ions, Chin.Phys. C 39 (7) (2015) 074101.

28. L. Yu,**G. L. Zhang**(*), S.Terashima, I. Tanihata, X. Y. Le, Simulation of 200-400 MeV/u^{12}C+^{12}Celastic scattering on SHARAQ spectrometer, Chin. Phys. C 39 (2) (2015) 026201.

29.W. W. Qu,**G. L. Zhang**(*), I. Tanihata, S. Terashima, C. L. Guo,X. Y. Le, H. Sakaguchi, Simulation of beam optics for^{12}C+^{12}Cscattering of RCNP by using Monte Carlo method, Chin. Phys. C38(11) (2014) 116202.

30. C. L. Guo,**G. L. Zhang**(*), W. W.Qu, S. Terashima, I. Tanihata, X. Y. Le, Simulation of (p, d) reaction onRIBLL2 for study of tensor force, Nuclear Science and Techniques 26 (2015)040501.

31. W. W. Qu,**G. L. Zhang**(*), S.Terashima, I. Tanihata, C. L. Guo, X. Y. Le, A method of estimating andsubtracting the hydrogen background in the natural carbon target used in the^{12}C+^{12}Cexperiment, Nuclear Science and Techniques 25 (2014) 050501.