[2024年]
1. 1. M. H. Zhang, Y. H. Zhang, Y. Zou, C. Wang, L. Zhu, and F. S. Zhang, Predictions of synthesizing elements with Z = 119 and 120 in fusion reactions, PHYSICAL REVIEW C 109, 014622 (2024)
2. Shuai Sun, Li-Gang Cao, Feng-Shou Zhang, Hiroyuki Sagawa, and Gianluca Colo,Microscopic study of M1 resonances in Sn isotopes,PHYSICAL REVIEW C 109, 014321 (2024)
3. Li-Lin Zhou, Jun-Jun Cai, Lu-Qi Li, Zi-Long Wang, Rui Zhu, Xiao-Ye Zhang, Xin-Rui Zhang, Long Zhu, Gen Zhang, and Feng-Shou Zhang,Fusion enhancement in the collisions with 44Ca beams and the production of neutron deficient 245?250Lr isotopes, PHYSICAL REVIEW C 109, 024606(2024)
4. Chang-Kai Li, Yang Liu, Jian-Ming Xue, Xiao-Ping OuYang, and Feng-Shou Zhang, Electronic stopping of protons in magnesium from first principles, PHYSICAL REVIEW A 109, 012818 (2024)
5. Y. L. Fu, J. Y. Zhong, F. S. Zhang, Electronic stopping in ternary material SiCN: anomalous behavior of slow channeling helium ions, Nuclear Inst. and Methods in Physics Research B 548(2024)165230.
6. 温静, 孙帅, 曹李刚, 张丰收,双Λ超核同位旋标量巨共振性质的相对论研究,物理学报 73(4)(2024)041101
7. Lu Qi Li, Gen Zhang, Jun-Jun Cai, Li-Lin Zhou, Feng-Shou Zhang, Exploring the feasibility of producing superheavy nuclei in the proton evaporation channel,Nuclear Physics Review 37(3) (2024)
[2023年]
1. Na Tang, Bing Li, Jing-Jing Li, and Feng-Shou Zhang,Production of 61Ca, 63Sc, 65Ti, 68,69V, 71Cr, 77Fe, and 79Co in projectile fragmentation with radioactive ion beams at 1AGeV, Physical Review C 107 (2023) 014603
2. Yu-Hai Zhang, Jing-Jing Li, Na Tan, Xin-Rui Zhang, Zhong Liu, Feng-Shou Zhang, Production cross sections of new neutron-rich isotopes with Z=92--106 in the multinucleon transfer reaction 197Au+232Th, Physical Review C 107 (2023) 024604
3. Wen-Qi Zuo, Fei Mao, Shi-Ming Li, Wen-Qi Jin, Rui-Da Chen, Ge-Ge Xiong, Cong-Zhang Gao, Feng Wang, and Feng-Shou Zhang, Electronic stopping power of magnesium including inner-electron excitation, Physical Review A 107 (2023) 012818
4. H. H. Yan, Y. L. Fu, W. Cheng, and F. S. Zhang, Electronic properties of defects induced by hydrogen and helium radiation on semimetal, Chemical Physics 565 (2023)111764
5. S. H. Cheng, J. Wen, L. G. Cao, F. S. Zhang, The neutron skin thickness of 90Zr and symmetry energy constrained by the charge exchange spin-dipole excitations, Chinese Physics C 47 (2023) 024107.
6. L. Wang, L. J. Li, M. Mohamedsedik, R. An, J. J. Li, B. S. Xie, F. S. Zhang, Enhancement of electron-positron pairs in combined potential wells with linear chirp frequency, Chinese Physics B 32 (2023) 010301
7. Z. P. Wang, X. F. Xu, F. S. Zhang, X. Wan, A theoretical study of fragmentation dynamics of water dimer by proton impact, Chinese Physics B 32 (2023) 03340
8. R. An, X. X. Dong, L. G. Cao, and F. S. Zhang, Local variations of charge radii for nuclei with even Z from 84 to 120, Commun. Theor. Phys.75 (2023) 035301
9. J. J. Li, N. Tang, Y. H. Zhang, M. H. Zhang, C. Wang, X.R. Zhang, and F. S. Zhang, Progress on production cross sections of unknown nuclei in fusion evaporation reactions and multinucleon transfer reactions, International Journal of Modern Physics E 32(2023) 2330002
10.Jin Wen-Qi; Mao Fei; Li Shi-Ming; Zuo Wen-Qi; Chen Rui-Da; Xiong Ge-Ge; Mao Hong; Wang Feng; Zhang Feng-Shou,The contribution of inner electron excitation to the electronic stopping power of palladium for protons, Physical Chemistry Chemical Physics, 25(2023)9043
11.C. K. LI, J. M .Xue, X. P. Ouyang, and F. S. Zhang, Electronic stopping power in titanium for proton and helium ions from first-principle calculations, Physical Review A 107 (2023) 042813
12.C. K. Li, X. Guo, J. M .Xue, and F. S. Zhang, Electronic stopping power of protons in platinum: Direct valence and inner-shell-electron excitations from first-principles calculations,Physical Review A 107 (2023) 052814
13. 邹盈,张钰海,唐娜,李静静,利用机器学习可能解决重离子碰撞中的关键问题,原子能科学技术,57(2023)762-773
14.张明昊,张钰海,李静静,唐娜,孙帅,张丰收,重离子碰撞输运理论在超重核合成研究中的进展,核技术,46(2023)080014
15.H. Y. Lu (卢洪洋)1,2, Z. Liu (刘忠)1,2,*, Z. H. Li (李智焕)3, X. Wang (王翔)3, J. Li (李晶)3, H. Hua (华辉)3, H. Huang (黄浩)1,2, W. Q. Zhang (张文强)1,2, Q. B. Zeng (曾全波)1,2, X. H. Yu (余兴汉)1,2, T. H. Huang (黄天衡)1, M. D. Sun (孙明道)1,2, J. G. Wang (王建国)1, X. Y. Liu (刘小雨)1,2, B. Ding (丁兵)1, Z. G. Gan (甘再国)1,2, L. Ma (马龙)1, H. B. Yang (杨华彬)1, Z. Y. Zhang (张志远)1, L. Yu (郁琳)1,2, J. Jiang (姜舰)1,2, K. L. Wang (王凯龙)1,2, Y. S. Wang (王永生)1, M. L. Liu (柳敏良)1,2, C. J. Lin (林承键)4, L. J. Sun (孙立杰)4, N. R. Ma (马南茹)4, H. S. Xu (徐瑚珊)1,2, X. H. Zhou (周小红)1,2, G. Q. Xiao (肖国青)1,2, and F. S. Zhang (张丰收)5,6,Reinvestigation of 222U in high-precision digitalα-decay spectroscopy: Solution to the reduced decay-width anomaly,Physical Review C 108 (2023) 014302
16.R. An, S. Sun, L. G. Cao, and F. S. Zhang, Constraining the nuclear symmetry energy with charge radii of the mirror pairs nuclei, Nuclear Science and Techniques 34(2023)119
17. X. P. Geng et al. (CDEX Collaboration),Search for exotic interactions of solar neutrinos in the CDEX-10 experiment,Phys. Rev. D 107(2023)112002
18. Z. H. Zhang et al. (CDEX Collaboration),Search for boosted keV-MeV light dark matter particles from evaporating primordial black holes at the CDEX-10 experiment,Phys. Rev. D 108(2023)052006
19. 顾海科,候莉,张丰收, 主动性的科研管理在推动科研院所科技进步中的重要作用——以北京某基层科研院所为例, 中文科技期刊数据库(全文版)社会科学》9(2023) 129
20. Nan Zhang,Yue-Ting Du,Pei-Qi Yao, Hui-Yi Huang, Li-Rong Zhang,Feng-Shou Zhang,and Jun-Jie Liu,Synergistic Effect of Hyperactive Antifreeze Protein on Inhibition of Gas-Hydrate Growth by Hydrophobic and Hydrophilic Groups,J. Phys. Chem. B 127(49)(2023 )10469-10477
21. 徐姜炜,张超,毛飞, 张丰收,电子能损效应对材料辐照缺陷影响的理论模拟研究进展,核技术,46(2023)120504
[2022年]
1. J. J. Li, G. Zhang, X. R. Zhang, Y. H. Zhang, Z Liu and F. S. Zhang, Production of unknown neutron-rich transuranium isotopes 245−249Np, 248−251Pu, 248−254Am, and 252−254Cm in multinucleon transfer reactions, Journal of Physics G: Nuclear and Particle Physics 49 (2022) 025106.
2. Rong An, Xiang Jiang, Li-Gang Cao, and Feng-Shou Zhang, Odd-even staggering and shell effects of charge radii for nuclei with even Z from 36 to 38 and from 52 to 62, Physical Review C 105 (1) (2022) 014325.
3. Chang-Kai Li, Jian-ming Xue, Xiao-ping OuYang, and Feng-Shou Zhang, Resonant coherent excitation and energy loss of slow channeling helium ions in AlN, Phys. Rev. A 105 (1) (2022) 012819.
4. R An, S H Zhang, L S Geng, and F S Zhang, Charge radii of potassium isotopes in the RMF(BCS)* approach, Chinese Physics C 46 (2022) 054101.
5. Yu Cao, Chao Zhang, Xian-Yong Ding, Hua-JinHu, Chengling Pan, Feng-Shou Zhang, TD-carbon: A new face-centered cubic carbon allotrope, Chemical Physics 555 (2022) 111458.
6. Rong An, Xiang Jiang, Li-Gang Cao, and Feng-Shou Zhang, Evolution of nuclear charge radii in copper and indium isotopes, Chinese Physics C 46 (2022) 064601.
7. Xu Wang, Zhi-Ping Wang, Feng-Shou Zhang, Chao-Yi Qian, Collision site effect on the radiation dynamics of cytosine induced by proton, Chinese Physics B 31 (2022) 063401.
8. Z. Z. Liu, L. T. Yang, Q. Yue, C. H. Yeh, K. J. Kang, Y. J. Li, M. Agartioglu, H. P. An, J. P. Chang, J. H. Chen, Y. H. Chen, J. P. Cheng, W. H. Dai, Z. Deng, C. H. Fang, X. P. Geng, H. Gong, X. Y. Guo, Q. J. Guo, L. He, S. M. He, J. W. Hu, H. X. Huang, T. C. Huang, H. T. Jia, X. Jiang, H. B. Li, J. M. Li, J. Li, R. M. J. Li, X. Q. Li, Y. L. Li, B. Liao, F. K. Lin, S. T. Lin, S. K. Liu, Y. Liu, Y. D. Liu, Y. Y. Liu, H. Ma, Y. C. Mao, Q. Y. Nie, J. H. Ning, H. Pan, N. C. Qi, J. Ren, X. C. Ruan, V. Sharma, Z. She, K. Saraswat, M. K. Singh, T. X. Sun, C. J. Tang, W. Y. Tang, Y. Tian, G. F. Wang, L. Wang, Q. Wang, Y. Wang, Y. X. Wang, Z. Wang, H. T. Wong, S. Y. Wu, Y. C. Wu, H. Y. Xing, Y. Xu, T. Xue, Y. L. Yan, N. Yi, C. X. Yu, H. J. Yu, J. F. Yue, M. Zeng, Z. Zeng, B. T. Zhang, F. S. Zhang, K. K. Zhang, Z. H. Zhang, Z. Y. Zhang, M. G. Zhao, J. F. Zhou, Z. Y. Zhou, and J. J. Zhu (CDEX Collaboration),Studies of the Earth shielding effect to direct dark matter searches at the China Jinping Underground Laboratory, Physical Review D 105 (2022) 052005.
9. L.Y. Zhang, J. Su, J.J. He, M. Wiescher, R.J. deBoer, D. Kahl, Y.J. Chen, X.Y. Li, J.G. Wang, L. Zhang, F.Q. Cao, H. Zhang, Z.C. Zhang, T.Y. Jiao, Y.D. Sheng, L.H. Wang1, L.Y. Song, X.Z. Jiang, Z.M. Li, E.T. Li, S. Wang, G. Lian, Z.H. Li, X.D. Tang, H.W. Zhao, L.T. Sun4, Q. Wu, J.Q. Li, B.Q. Cui, L.H. Chen, R.G. Ma, B. Guo, S.W. Xu, J.Y. Li, N.C. Qi, W.L. Sun, X.Y. Guo, P. Zhang, Y.H. Chen, Y. Zhou, J.F. Zhou, J.R. He, C.S. Shang, M.C. Li, X.H. Zhou, Y.H. Zhang, F.S. Zhang, Z.G. Hu, H.S. Xu, J.P. Cheng and W.P. Liu,Direct measurement of the 19F(p, αγ)16O reaction in JUNA,EPJ Web of Conferences 260 (2022) 08004.
10. Wei Cheng, Pei-Sheng Liu, Min-Ju Ying, Feng-Shou Zhang, Enhancement in optical absorption of CsI(Na), Nucl. Sci. Tech. (2022) 33:29.
11. Z. Q. Zhang, L. Zhang, H. Yuan, M. L. Qiu, X. Zhang, B. Liao, F. S. Zhang, and X. P. Ouyang, Tribological Behaviors of Super-Hard TiAlN Coatings Deposited by Filtered Cathode Vacuum Arc Deposition, Materials 15 (2022) 2236.
12. X. D. Zhao, F. Mao, S. M. Li, G. D. Cheng, B. S. Li, H. Mao, F. Wang, F. S. Zhang, First-Principles Study of the Electronic Stopping Power of Zn for Protons, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 519(2022)28.
13. Jie-Cheng Feng, Xian-Wei Kang, Chih-Ting Lu, Yue-Lin Sming Tsai, Feng-Shou Zhang, Revising inelastic dark matter direct detection by including the cosmic ray acceleration, J. High Energy Phys. 04 (2022) 080.
14. Long Zhu, Jun Su, Cheng Li, Feng-Shou Zhang,How to approach the island of stability: reactions using multinucleon transfer or radioactive neutron-rich beams? Physics Letters B (2022) 137113.
15. Y. L. Fu, Z. Z. Tang, W. Cheng,F. S. Zhang, Electronic stopping power and electronic energy loss mechanism for low-energy ion in TiN under channeling conditions,Phys. Rev. A 105 (2022) 042818.
16. 张钰海,张 根,李静静,程 伟,张丰收, 基于大科学装置的放射性新核素产生进展, 同位素,35 (2) (2022) 104.
17. Hermann Wolter, Maria Colonna, Dan Cozma, Pawel Danielewicz, Che Ming Ko, Rohit Kumar, Akira Ono, ManYee Betty Tsang, Jun Xu, Ying-Xun Zhang, Elena Bratkovskaya, Zhao-Qing Feng, Theodoros Gaitanos, Arnaud Le F`evre, Natsumi Ikeno, Youngman Kim, Swagata Mallik, Paolo Napolitani, Dmytro Oliinychenko, Tatsuhiko Ogawa, Massimo Papa, Jun Su, Rui Wang, Yong-Jia Wang, Janus Weil, Feng-Shou Zhang, Guo-Qiang Zhang, Zhen Zhang, Joerg Aichelin, Wolfgang Cassing, Lie-Wen Chen, Hui-Gan Cheng, Hannah Elfner, K. Gallmeister, Christoph Hartnack, Shintaro Hashimoto, Sangyong Jeon, Kyungil Kim, Myungkuk Kim, Bao-An Li, Chang-Hwan Lee, Qing-Feng Li, Zhu-Xia Li, Ulrich Mosel, Yasushi Nara, Koji Niita, Akira Ohnishi, Tatsuhiko Sato, Taesoo Song, Agnieszka Sorensen, Ning Wang, Wen-Jie Xie, Transport Model Comparison Studies of Intermediate-Energy Heavy-Ion Collisions, Progress in Particle and Nuclear Physics 125 (2022) 103962.
18. B. Li, N. Tang, and F. S. Zhang, Production of p-rich nuclei with Z = 20 − 25 based on radioactive ion beams, Nuclear Science and Techniques 33 (2022) 55.
19. Z.Q. Zhang, W.Q Yan, Y.F. Zhang, H. Yuan, L. Zhang, Y.Q. Shen, F.S. Zhang; X. Ouyang, X.P. Ouyang, Effect of self-ion with high energy irradiation on the surface morphology, microstructure and mechanical properties of nanocrystalline TiAlN coating, Materials Characterization (2022)112041.
20. 张丰收, 张钰海, 张明昊, 唐娜, 程诗慧, 李静,程伟, 超重新核素合成研究进展, 北京师范大学学报(自然科学版),58 (2022) 392-399.
21. S. M. Li, F. Mao, X. D. Zhao, and F. S. Zhang, Contribution of f-electron excitation to electronic stopping power of platinum for protons, Physical Review B 106 (2022) 014103.
22. X. R. Zhang, G. Zhang, J. J. Li, Z. Liu, Y. X. Yang, and F. S. Zhang, Production mechanism and prediction cross sections of unknown neutron-rich 263−265,267−269Lr isotopes in multinucleon transfer reactions based on the dinuclear system model, Journal of Physics G: Nuclear and Particle Physics 49 (2022) 095104.
23. B. Li, N. Tang, F. S. Zhang, Dynamical fluctuations in fragmentation reactions in a Boltzmann-Langevin approach, Communications in Theoretical Physics 74 (2022) 115301.
24. J. J. Li, N. Tang, Y. H. Zhang, X. R. Zhang, G. Zhang, and F. S. Zhang, Theoretical study on the production of neutron-rich transuranium nuclei with radioactive beams in multinucleon transfer reactions, Physical Review C 106 (2022) 014606.
25. Y. H. Zhang, G. Zhang, J. J. Li, Z. Liu, A. V. Yeremin, F.S. Zhang, Production cross sections of 243--248No isotopes in fusion reactions, Physical Review C 106 (2022)014625.
26. K. Zhao, Z. Liu, F.S. Zhang, N. Wang and J. Z. Duan, Distinct sequential and massive transfer processes for production of neutron-rich N≈126 nuclei in 238U+198Pt reactions, Physical Review C 106 (2022) L011602.
27. L. Q. Li, G. Zhang, and F. S. Zhang, The production of unknown 298Fl isotopes in proton evaporation channels within the dinuclear system model, Physical Review C 106 (2022)024601.
28. C. K. Li, J. M. Xue, and F. S. Zhang, Channeling electronic stopping power of lithium ions in diamond: Contribution of projectile inner-shell electrons, Physical Review A 106 (2022) 022807.
29. W. H. Dai, H. Ma, Q. Yue et. al. (CDEX Collaboration ), Search for neutrinoless double-beta decay of 76Ge with a natural broad energy germanium detector, Physical Review D 106 (2022) 032012.
30. S. H. Cheng, W. T. Wu, L. G. Cao, and F. S. Zhang, Isospin effects on α decay and cluster radioactivity, The European Physical Journal A 58 (2022) 168.
31. N. Tang, X. R. Zhang, J. J. Li, P. W. Wen, and F. S. Zhang, Production of unknown neutron-rich isotopes with Z=99-102 in multinucleon transfer reaction near the Coulomb barrier, Physical Review C 106 (2022) 034601.
32. 张丰收,序, 《北师大学报(自然科学版)》 58(5)(2022)673-673.
33. 张丰收,付艳龙,毛飞,李长楷,张超, 低能离子与物质相互作用中电子能损微观机制的研究进展, 《北师大学报(自然科学版)》58(5)(2022)755-762.
34. 江汶阳,赵益巍,祁欣睿,江建勇,张丰收,刘圆圆, 基于GAGG闪烁体探测器卫星小载荷的组装与测试, 《北师大学报(自然科学版)》 58(5)(2022) 737-742.
35. 安荣,曹李刚,张丰收, 奇特放射性原子核电荷半径的研究进展, 《北师大学报(自然科学版)》58(5) (2022) 790-795.
36. Z.Y. Zhang, L.T. Yang, Q. Yue et. al. (CDEX Collaboration ), Constraints on Sub-GeV Dark Matter–Electron Scattering from the CDEX-10 Experiment, Physical Review Letters 129 (2022) 221301.
37. W.H.Dai, L.P.Jia, H.Ma, Q.Yue et. al. (CDEX Collaboration ), Exotic Dark Matter Search with the CDEX-10 Experiment at China’s Jinping Underground Laboratory, Physical Review Letters 129 (2022) 221802.
38. 郑雪瑶,康现伟,张丰收,暗物质和改进引力理论的研究进展, 大学物理 41(10)(2022)80-85 .
[2021年]
1. Xin-Rui Zhang, Gen Zhang, Jing-Jing Li, Shi-Hui Cheng, Zhong Liu, Feng-Shou Zhang, Effects of nucleus orientation on transfer process and production of unknown neutron-rich isotopes with Z = 62–75 in 204Hg + 232Th based on the dinuclear system model, Phys. Rev. C 103, 024608 (2021)
2. K. Zhao, Z. Liu, F.S. Zhang, N. Wang, Production of neutron-rich N = 126 nuclei in multinucleon transfer reactions: Comparison between 136Xe + 198Pt and 238U + 198Pt reactions, Phys. Lett. B 815 (2021) 136101
3. Zhiping Wang, Fengshou Zhang, Xuefen Xu, Chaoyi Qian, Laser-Induced Real-Time Dynamics of Water Pentamer, Journal of Russian Laser Research, 2021, 42(1)
4. Pei-Wei Wen, Shi-Sheng Zhang, Li-Gang Cao, Feng-Shou Zhang, Fully self-consistent calculation of β-decay half-lives within Skyrme energy density functional, Chinese Phys. C 45 014105 (2021)
5. Hui-Ting Xu, Nan Zhang, Ming-Ru Li, Feng-Shou Zhang, Anion effect of Cl−, I−, and F− on counterions condensation within nucleic acid ion atmosphere, Journal of Molecular Liquids 332 (2021) 115899
6. Yi Wang, Zhi Zeng, Qian Yue, et al (CDEX Collaboration), First experimental constraints on WIMP couplings in the effective field theory framework from CDEX, SCIENCE CHINA Physics, Mechanics & Astronomy 64(48) (2021) 281011
7. Bing Li, Na Tang, and Feng-Shou Zhang, Isospin effects of projectile fragmentation in a Boltzmann-Langevin approach, Chinese Phys. C 45 084103 (2021)
8. S. H. Cheng, Z. S. Ge, L. G. Cao, and F. S. Zhang, Theoretical calculations of the nuclear deformation effects on α-decay half-lives for heavy and super-heavy nuclei, J. Phys. G: Nucl. Part. Phys. 48 095106 (2021)
9. J. C. Feng, X. W. Kang, Q. F. Lu, and F. S. Zhang, Possible assignment of excited light 3S1 vector mesons,Phys. Rev. D 104, 054027 (2021)
10. M. Colonna, Y. X. Zhang, Y. J. Wang, D. Cozma, P. Danielewicz, C. M. Ko, A. Ono, M. B. Tsang, R. Wang, H. Wolter, J. Xu, Z. Zhang, L .W. Chen, H. G. Cheng, H. Elfner, Z. Q. Feng, M. Kim, Y. Kim, S. Jeon, C. H. Lee, B. A. Li, Q. F. Li, Z .X. Li, S. Mallik,D. Oliinychenko, J. Su, T. Song, A. Sorensen, and F. S. Zhang, Comparison of heavy-ion transport simulations: Mean-field dynamics in a box, Phys. Rev. C 104, 024603 (2021)
11. X. D. Zhao, F. Mao, S. M. Li, B. S. Li, H. Mao, F. Wang, and F. S. Zhang, First-principles study of semicore electron excitation in the electronic energy loss of ZnO for protons,Phys. Rev. A 104, 032801 (2021)
12. C. Y. Qian, Z. P. Wang, X. F. Xu, Y. B. Wang and F. S. Zhang, Collision dynamics of cytosine under proton irradiation, International Journal of Modern Physics B 35 (23), 2150242 (2021)
13. L. Y. Zhang, J. Su, J. J. He, M. Wiescher, R. J. deBoer, D. Kahl, Y. J. Chen, X. Y. Li, J. G. Wang, L. Zhang, F. Q. Cao, H. Zhang, Z. C. Zhang, T. Y. Jiao, Y. D. Sheng, L. H. Wang, L. Y. Song, X. Z. Jiang, Z. M. Li, E. T. Li, S. Wang, G. Lian, Z. H. Li, X. D. Tang, H. W. Zhao, L. T. Sun, Q. Wu, J. Q. Li, B. Q. Cui, L. H. Chen, R. G. Ma, B. Guo, S. W. Xu, J. Y. Li, N. C. Qi, W. L. Sun, X. Y. Guo, P. Zhang, Y. H. Chen, Y. Zhou, J. F. Zhou, J. R. He, C. S. Shang, M. C. Li, X. H. Zhou, Y. H. Zhang, F. S. Zhang, Z. G. Hu, H. S. Xu, J. P. Cheng, and W. P. Liu, Direct Measurement of the Astrophysical 19F(p;αγ)16O Reaction in the Deepest Operational Underground Laboratory , Physical Review Letters 127, 152702 (2021)
Editors' Suggestion + Featured in Physics
14. H-T. Xu, N. Zhang, M-R. Li, F-S. Zhang, Comparison of the ionic effects of Ca2+ and Mg2+ on nucleic acids in liquids, Journal of Molecular Liquids 344 (2021) 117781
15. Shi-Ming Li, Fei Mao, Xu-Dong Zhao, Bing-Sheng Li, Wen-Qi Jin, Wen-Qi Zuo, Feng Wang, and Feng-Shou Zhang, First-principles study of the electronic stopping power of indium for protons and He ions, Physical Review B 104 (2021) 214104
[2020年]
1. M.D. Sun, Z. Liu, T.H. Huang, W.Q. Zhang , A.N. Andreyev, B. Ding, J.G. Wang, X.Y. Liu, H.Y. Lu, D.S. Hou, Z.G. Gan, L. Ma, H.B. Yang, Z.Y. Zhang, L. Yu, J. Jiang, K.L. Wang, Y.S. Wang, M.L. Liu, Z.H. Li, J. Li, X. Wang, A.H. Feng, C.J. Lin, L.J. Sun, N.R. Ma, W. Zuo, H.S. Xu, X.H. Zhou, G.Q. Xiao, C. Qi, F.S. Zhang, Fine structure in the α decay of 223U,Physics Letters B 800 (2020) 135096
2. Yan-Long Fu, Zhao-Jun Zhang, Chang-kai Li, Hai-Bo Sang, Wei Cheng;, Feng-Shou Zhang, Electronic stopping power for slow ions in the low-hardness semimetal HgTe using first-principles calculations,Journal of Physics: Condensed Matter 32 (2020) 105701
3. Y.S. Wang, W. X. Huang, Y. L. Tian, Jun-Ying Wang, C. Li, F. S. Zhang,K. Zhao, X. H. Zhou, H. S. Xu, Monte-Carlo simulation of ion distributions in a gas cell for multinucleon transferreaction products at LENSHIAF spectrometer,Nuclear Inst. and Methods in Physics Research B 463 (2020) 528–532
4. Z. P. Wang, F. S. Zh,ang, X. F. Xu, and C.Y. Qian, Theoretical investigations of collision dynamics of cytosine by low-energy (150–1000 eV) proton impact,
Chin. Phys. B Vol. 29, No. 2 (2020) 023401
5. Y. L. Fu, H. B. Sang , W. Cheng, and F. S. Zhang, Topological properties after light ion irradiation on Weyl semimetal niobium phosphide from first principles,
Materials Today Communications 24 (2020) 100939
6. Y. Y. Liu, J. P. Cheng, P. Pang, B. Liao, B. Wu, M. J. Ying, F. S. Zhang, L. Chen, S. S. Lv, Y.D. Liu and T. X. Sun, Developing cold-resistant high-adhesive electronic substrate for WIMPs detectors at CDEX,
Chin. Phys. B Vol. 29, 045203 (2020)
7. M. L. Qiu, P. Yin, G. F. Wang, J. G. Song, C. W. Luo, T. S. Wang, G. Q. Zhao, S. S. Lv, F. S. Zhang, and B. Liao, In Situ luminescence measurement from 6H-SiC at low temperature,
Chin. Phys. B Vol. 29, 046106 (2020)
8. Z. She et. al, Direct Detection Constraints on Dark Photons with the CDEX-10 Experiment at the China Jinping Underground Laboratory, PHYSICAL REVIEW LETTERS 124, 111301 (2020)
9. M. R. Li, N. Zhang, H. T. Xu, F. S. Zhang, M. R. Li, N. Zhang, H. T. Xu, F. S. Zhang, Sequence dependence of the conformational transitions of DNA, Chemical Physics Letters, 748,137344 (2020)
10. Y. Wang et. al (CDEX Collaboration), Improved limits on solar axions and bosonic dark matter from the CDEX-1B experiment using the profile likelihood ratio method, PHYSICAL REVIEW D 101, 052003 (2020)
11. G. Zhang, C. A. T. Sokhna, and F. S. Zhang, The Production of the Isotopes with Z = 98–106 in the Multinucleon Transfer Reaction 238U + 251Cf, Bulletin of the Russian Academy of Sciences: Physics, 84, 485–490 (2020)
12. Long Zhu, ChengLi, Chen-Chen Guo, JunSu, Pei-Wei Wen, GenZhang, Feng- ShouZhang, Theoretical progress on production of isotopes in the multinucleon transfer process, International Journal of Modern Physics E 29, 2030004 (2020)
13. X. Wang, Z.H. Li, Z. Liu, J. Li, H. Hua, H.Y. Lu , W.Q. Zhang , T.H. Huang , M.D. Sun , J.G. Wang , X.Y. Liu , B. Ding, Z.G. Gan, L. Ma , H.B. Yang , Z.Y. Zhang, L. Yu, J. Jiang, K.L. Wang, Y.S. Wang, M.L. Liu, C.J. Lin, L.J. Sun, N.R. Ma, H.S. Xu, X.H. Zhou, G.Q. Xiao , H.Y. Wu, C. Xu, S.Q. Zhang, X.Q. Li, R. Han, Z.Q. Chen, C.G. Wu, D.W. Luo, Y. Jin, J. Lin, D.X. Jiang, Y.L. Ye, F.S. Zhang, An effective digital pulse processing method for pile-up pulses in decay studies of short-lived nuclei, Nuclear Inst. and Methods in Physics Research, A 971, 164608 (2020)
14. X. X. Yang, G. Zhang, J. J. LI, B. LI, X. R. Zhang, A. T. SokhnaCheikh, S. H. Cheng, Y. H. Zhang, C. Wang, F. S. Zhang, Progress on Synthesis of Superheavy Nuclei Z=119~122 with Predictions from Different Theoretical Models, Nuclear Physics Review 37 (2) (2020)
15. J. Su, L. Zhu, C.C. Guo, F.S. Zhang, Isospin dependence of the projectile fragmentation at hundreds MeV/nucleon, Chinese Physics C(9) (2020)
16. X. D. Zhao, F. Mao, S. A. Tang, C. Z. Gao, F. Wang, and F. S. Zhang, Excitation effect of d electrons on the electronic energy loss of energetic protons colliding with a Zn atom, PHYSICAL REVIEW A 101, 062705 (2020)
17. Y. L. Fu, C. K. Li, H. B. Sang, W. Cheng, and F. S. Zhang, Electronic stopping power under channeling conditions for slow ions in Ge using first principles, PHYSICAL REVIEW A 102 (2020) 012803
18. Z. S. Ge, G. Zhang, S. H. Cheng, Yu. S. Tsyganov, F.S. Zhang, Calculations of the α-decay properties of Z = 120, 122, 124,126 isotopes, Chinese Physics C 44 (2020) 10402
19. N. Zhang, M. R. Li, H. T. Xu, and F. S. Zhang, Polymorphism and Flexibility of DNA in Alcohols, Chinese Physics Letters 37 (2020) 088701
20. Gen Zhang, Jing-Jing Li, Xin-Rui Zhang, Bing Li, Cheikh A. T. Sokhna, Zhang,Feng-Shou, Role of the quasifission yields in the multinucleon transfer reactions of 136Xe+208Pb, PHYSICAL REVIEW C 102 (2020) 024617
21. C. Li, J. Tian, F. S. Zhang, Production mechanism of the neutron-rich nuclei in multinucleon transfer reactions: A reaction time scale analysis in energy dissipation process, Physics Letters B 809 (2020) 135697
22. M. L. Qiu, G. Q. Zhao, T. S. Wang, C. W. Luo, G. F. Wang, F. S. Zhang, S. S. Lv, and B. Liao, In situ luminescence measurement from lithium fluoride under various ions, Acta Physica Sinica 69 (2020)107801
23. Z. Q. Zhang, B. Liao, Y. X. Ou, F. S. Zhang, X. Zhang, Y. Q. Shen, S. N. Chen, Q. S. Hua, G. Y. He, X. P. Ouyang , Thick yet tough TiN coatings deposited by filter cathode vacuum arc technology, Acta Physica Sinica 69 (2020)108103
24. Feng-Shou Zhang, Qing Wang, Research progresses in the plant breeding of radiation mutation,Journal of henan normal university (natural science edition), 2020, 48(6), 39-49
25. You-ting Meng, Feng-Shou Zhang, Ping Wang, Yue-wen Wu, Review on the molecular mechanisms of U(VI) bioreduction. China Environmental Science, 2020, 4(1), 422-430
26. Zhiping Wang, Xuefen Xu, Fengshou Zhang, and Chaoyi Qian, Electron-ion dynamics of hydroperoxyl radical under intense femtosecond laser pulses, International Journal of Modern Physics B, 2020, 34(32), 2050320
27. W.Q. Zhang, M.D. Sun, T.H. Huang, Z. Liu, J.G. Wang, B. Ding, X.Y. Liu, Z.G. Gan, L. Ma, H.B. Yang, Z.Y. Zhang, L. Yu, K.L. Wang, Y.S. Wang, M.L. Liu, H.Y. Lu, Z.H. Li, J. Li, X. Wang, C.J. Lin, L.J. Sun, N.R. Ma, W. Zuo, H.S. Xu, X.H. Zhou, G.Q. Xiao, C. Qi, and F.S. Zhang, Synthesis and Reanalysis of Light Short-lived Actinides, JPS Conf. Proc. 32, 010025 (2020), Proceedings of 13th International Conference on Nucleus-Nucleus Collisions
[2019年]
1. C. Li, X, X. Xu, J. J. Li, G. Zhang, B. Li, C. A. T. Sokhna,, Z. S. Ge, F. Zhang, P. W. Wen, and F. S. Zhang, Production of new neutron-rich heavy nuclei with Z = 56–80 in the multinucleon transfer reactions of 136Xe + 198Pt, PHYSICAL REVIEW C 99, 024602 (2019)
2. P. W. Wen, C. J. Lin, C. Li ,L. Zhu, F. Zhang, F. S. Zhang,H. M. Jia, F. Yang, N. R. Ma, L. J. Sun, D. X. Wang, F. P. Zhong, H. H. Sun, L. Yang, and X. X. Xu, Evaporation and fission of the primary fragments produced by multinucleon transfer reactions, PHYSICAL REVIEW C 99, 034606 (2019)
3. Cheng Li, Cheikh A. T. Sokhna, XinxinXu, Jingjing Li, Gen Zhang, Bing, ZhishuaiGe and Feng-Shou Zhang, Isospin equilibration in multinucleon transfer reaction at near-barrier energies, PHYSICAL REVIEW C 99, 034619 (2019)
4. Z. J. Zhang, Y. L. Fu, W. Cheng, F. S. Zhang, Electronic Properties of Defects Induced by Hydrogen and Helium Radiation on Weyl Semimetal Niobium Arsenic, Computational Materials Science 160, 9-15(2019)
5. N. Zhang, M. R. Li, F. S. Zhang, Structure and dynamics properties of liquid ethylene glycol from molecular dynamics simulations, Chemical Physics Letters, 718, 12–21 (2019)
6. Hao Jiang, LiTao Yang, Qian Yue, KeJun Kang, JianPing Cheng, YuanJing Li, Henry Tsz-King Wong, M. A?artio?lu, HaiPeng An, JianPing Chang, JingHan Chen, YunHua Chen, Zhi Deng, Qiang Du, Hui Gong, Li He, JinWei Hu, QingDong Hu, HanXiong Huang, LiPing Jia, HauBin Li, Hong Li, JianMin Li, Jin Li, Xia Li, XueQian Li, YuLan Li, Bin Liao, FongKay Lin, ShinTed Lin, huKui Liu, YanDong Liu, YuanYuan Liu, ZhongZhi Liu, Hao Ma, JingLu Ma, Hui Pan, Jie Ren, XiChao Ruan, B. Sevda, Vivek Sharma, ManBin Shen, Lakhwinder Singh, Monoj Kumar Singh, TianXi Sun, ChangJianTang, WeiYouTang, YangTian, GuangFu Wang, JiMin Wang, Li Wang, Qing Wang, Yi Wang, ShiYong Wu, YuCheng Wu, HaoYang Xing, Yin Xu, Tao Xue, SongWei Yang, Nan Yi, ChunXu Yu, HaiJun Yu, JianFeng Yue, XiongHui Zeng, MingZeng, Zhi Zeng, FengShou Zhang, YunHua Zhang, MingGang Zhao, JiFang Zhou, ZuYingZhou, JingJun Zhu, and ZhongHua Zhu, Performances of a prototype point-contact germanium detector immersed in liquid nitrogen for light dark matter search, Science China Physics, Mechanics & Astronomy, 62,31012 (2019)
7. W. J. Xie, L. J. Wang, J. Su, F. S. Zhang, Roles of N Δ → NN and πN → Δ Reactions in Heavy-Ion Collisions at Intermediate Energies ,Communications in Theoretical Physics, 71(2), 203-208 (2019)
8. C. K. Li, S. Liu, F. S. Zhang, Chemical effect on the energy lose for slow ion channeling a narrow band gap semiconductor, Nuclear Inst. and Methods in Physics Research B 444, 38-42 (2019)
9. XinXin Xu, Gen Zhang, JingJing Li, Bing Li, Cheikh A. T. Sokhna, XinRui Zhang, XiuXiu Yang, ShiHui Cheng, YuHai Zhang, ZhiShuaiGe, Cheng Li, Zhong Liu, and Feng-Shou Zhang, Production of exotic neutron-deficient isotopes near N, Z = 50 in multinucleon transfer reactions, Chinese Physics C 43, 064105 (2019)
10. Fan Zhang, Cheng Li, Pei-Wei Wen, Jian-Wei Liu, Jun Su, and Feng-Shou Zhang, Time dependence of the thermal-photon thermometer, PHYSICAL REVIEW C 100, 024603 (2019)
11. Gen Zhang, Cheikh A. T. Sokhna, Zhong Liu, and Feng-Shou Zhang, Production of neutron-rich isotopes 264,266,268,269Rf by multinucleon transfer reactions based on 238U beam, PHYSICAL REVIEW C 100, 024613 (2019)
12. Zhiping Wang, Feng-Shou Zhang, Xuefeng Xu, Yanbian Wang and Chaoyi Qian, Collision dynamics of proton to water dimer at 250 eV, Modern Physics Letters B, Vol. 33, No. 22, 1950257 (2019)
13. ZhishuaiGe, Gen Zhang, Shihui Cheng, Yuling Li, Ning Su, WuzhengGuo, Yu.S. Tsyganov and Feng-Shou Zhang, Theoretical predictions for alpha-decay properties of 283–339Og using a shell-effect induced generalized liquid-drop model, Eur. Phys. J. A 55, 166 (2019)
14. Akira Ono,Jun Xu,Maria Colonna,PawelDanielewicz,Che Ming Ko,Manyee Betty Tsang,Yong-Jia Wang,Hermann Wolter,Ying-Xun Zhang,Lie-Wen Chen, Dan Cozma, Hannah Elfner, Zhao-Qing Feng, NatsumiIkeno, Bao-An Li, SwagataMallik, Yasushi Nara, Tatsuhiko Ogawa, Akira Ohnishi, DmytroOliinychenko, Jun Su, Taesoo Song, Feng-Shou Zhang, and Zhen Zhang, Comparison of heavy-ion transport simulations: Collision integral with Pions and Delta resonances in a box, Physical Review C 100,044617 (2019)
15. Z. Z. Liu, Q. Yue et al, CDEX Collaboration, Constraints on Spin-Independent Nucleus Scattering with sub-GeV Weakly Interacting Massive Particle Dark Matter from the CDEX-1B Experiment at the China Jinping Underground Laboratory, PHYSICAL REVIEW LETTERS 123, 161301 (2019)
16. Chang-Kai Li, Sheng Liu, Qiang Cao, Feng Wang, Xiao-ping OuYan, and Feng-Shou Zhang, Effect of resonant coherent excitation on the electronic stopping of slow channeled ions, PHYSICAL REVIEW A 100, 052707 (2019)
17. L. T. Yang, H. B. Li, Q. Yue et al, CDEX Collaboration,Search for Light Weakly-Interacting-Massive-Particle Dark Matter by Annual Modulation Analysis with a Point-Contact Germanium Detector at the China Jinping Underground Laboratory, PHYSICAL REVIEW LETTERS 123, 221301 (2019)
[2018年]
1.Cheng Li, Peiwei Wen, Jingjing Li, Gen Zhang,Bing Li, Xinxin Xu, Zhong Liu, Shaofei Zhu, Feng-Shou Zhang, Production mechanism of new neutron-rich heavy nuclei in the 136Xe+198Pt reaction, Physics Letter B (2018) 776,278
2.Rui-Ting Zhao, Nan Zhang, and Feng-Shou Zhang, Theoretical study on collision dynamics of H+ + H2O at low energies, Mol. Phys. 116(2), 2018, 231-241
3. W. Yu, Y. Zhang, F. S. Zhang, R. Hutto, Y Zou, C. Z. Gao and B. Wei, Collision dynamics of H+ + N2 at low energies based on time-dependent density functional theory, J. Phys. B: At. Mol. Opt. Phys. 51 (2018) 035204
4. Zhiping Wang, Xuefen Xu, Fengshou Zhang, and Chaoqi Qian, TTDFT investigation of excitation of water tetramer under femtosecond laser pulse irradiation, International Journal of Modern Physics B Vol.32 (2018) 1850113
5. W. Yu, C. Z. Gao, Y. Zhang, F. S. Zhang, R. Hutton, Y. Zou, and B. Wei, Collision cross sections of N2 by H+ impact at keV energies within time-dependent density-functional theory, Phys. Rev. A 97,032706 (2018)
6. Ying-Xun Zhang, Yong-Jia Wang, Maria Colonna, Pawel Danielewicz, Akira Ono, Manyee Betty Tsang, Hermann Wolter, Jun Xu, Lie-Wen Chen, Dan Cozma, Zhao-Qing Feng, Subal Das Gupta, Natsumi Ikeno, Che-Ming Ko, Bao-An Li, Qing-Feng Li, Zhu-Xia Li, Swagata Mallik, Yasushi Nara, Tatsuhiko Ogawa, Akira Ohnishi, Dmytro Oliinychenko, Massimo Papa, Hannah Petersen, Jun Su, Taesoo Song, Janus Weil, Ning Wang, Feng-Shou Zhang, and Zhen Zhang, Comparison of heavy-ion transport simulation: Collision integral in a box, Phys. Rev. C 97, 034625 (2018)
7. H. Shen, Q. Zhao, F.S. Zhang, G. B. Sushkof, A. V. Korol, and A. V. Solovyov, Channeling and radiation of 855 MeV electrons and positrons in straight and bent tungsten (110) crystals, Nuclear Inst, and Methods in Physics Research B 424 (2018) 26–36
8. C.K. Li, F. Wang, C.Z. Gao, B. Liao, X.P. Ouyang,
F.S. Zhang, Nonlinear electronic stopping power of channeled slow light ions in ZnSe: Evidence of energy loss caused by formation and breaking of chemical bond, Nuclear Inst, and Methods in Physics Research B 426 (2018) 41–45
9. H. Jiang, L. P. Jia, Q. Yue, K. J. Kang, J. P. Cheng, Y. J. Li, H. T. Wong, M. Agartioglu, H. P. An,
J. P. Chang, J. H. Chen, Y. H. Chen, Z. Deng, Q. Du, H. Gong, L. He, J.W. Hu, Q. D. Hu, H. X. Huang,
H. B. Li, H. Li, J. M. Li, J. Li, X. Li, X. Q. Li, Y. L. Li, B. Liao, F. K. Lin, S. T. Lin, S. K. Liu, Y. D. Liu,
Y. Y. Liu, Z. Z. Liu, H. Ma, J. L. Ma, H. Pan, J. Ren, X. C. Ruan, B. Sevda, V. Sharma, M. B. Shen,
L. Singh, M. K. Singh, T. X. Sun, C. J. Tang, W. Y. Tang, Y. Tian, G. F. Wang, J. M. Wang, L. Wang,
Q. Wang, Y. Wang, S. Y. Wu, Y. C. Wu, H. Y. Xing, Y. Xu, T. Xue, L. T. Yang, S.W. Yang, N. Yi,
C. X. Yu, H. J. Yu, J. F. Yue, X. H. Zeng, M. Zeng, Z. Zeng, F. S. Zhang, Y. H. Zhang, M. G. Zhao, J. F. Zhou,
Z. Y. Zhou, J. J. Zhu, and Z. H. Zhu, Limits on Light Weakly Interacting Massive Particles from the First 102.8 kg × day Data of the CDEX-10 Experiment, Physical Review Letters 120, 241301 (2018)
10. Wenjie Xie, Jun Su, Long Zhu, and Fengshou Zhang, Effects of the pion-nucleon potential in 197Au + 197Au collisions at 1.5 GeV/nucleon, Phys. Rev. C 97, 064608 (2018)
11. Jingjing Li, Cheng Li, Peiwei Wen and Fengshou Zhang, The effects of collision orientation and energy dependence in multinucleon transfer reactions, Journal of Physics: Conf. Series 1014 (2018) 012019
12. Jun Su, W. Trautmann, Long Zhu, Wenjie Xie, and Feng Shou Zhang, Dynamical properties and secondary decay effects of projectile fragmentations in 124Sn,107Sn + 120Sn collisions at 600 MeV/nucleon, Phys. Rev. C 98, 014610 (2018)
13. D. H. Zhang and F. S. Zhang, Fragment distribution in?78;86Kr+181Ta reactions, Chinese Physics C Vol. 42, No. 5 (2018) 054107
14. Gen Zhang, Cheng Li, Pei-Wei Wen, Jing-Jing Li, Xin-Xin Xu, Bing Li, Zhong Liu, and Feng-Shou Zhang, Production of neutron-rich?209–212Pt isotopes based on a dinuclear system model, Phys. Rev. C 98, 014613 (2018)
15. Jingjing Li, Cheng Li, Gen Zhang, Bing Li, Xinxin Xu, Zhong Liu, Yu. S. Tsyganov, and Feng-Shou Zhang, Theoretical study on production of unknown neutron-deficient 280–283Fl and neutron-rich?290–292Fl isotopes by fusion reactions, Phys. Rev. C 98, 014626 (2018)
16. Ming-Ru Li, Nan Zhang, and Feng-Shou Zhang, A simulation study of water property changes using geometrical alteration in SPC/E, Chin. Phys. B, 2018, 27(8): 083103
17. Yan-Long Fu, Chang-Kai Li, Zhao-Jun Zhang, Hai-Bo Sang, Wei Cheng, and Feng-Shou Zhang, Electronic properties of defects inWeyl semimetal tantalum arsenide, Chin. Phys. B, vol. 27, No. 9 (2018) 097101
18. X.Y.Liu, Z.Liu, B.Ding, P.Doornenbal, A.Obertelli, S.M.Lenzi, P.M.Walker, L.X.Chung, B.D.Linh, G.Authelet, H.Baba, D.Calvet, F.Château, A.Corsi, A.Delbart, J.-M.Gheller, A.Gillibert, T.Isobe, V.Lapoux, M.Matsushita, S.Momiyama, T.Motobayashi, M.Niikura, F.Nowacki, H.Otsu, C.Péron, A.Peyaud, E.C.Pollaccod, J.-Y.Roussé, H.Sakurai, M.Sasano, Y.Shiga, S.Takeuchi, R.Taniuchi, T.Uesaka, H.Wang, K.Yoneda, Y.H.Lam, T.H.Huang, M.D.Sun, W.Q.Zhang, H.Y.Lu, D.S.Hou, F.Browne, Zs.Dombradi, S.Franchoo, F.Giacoppo, A.Gottardo, K.Hadynska-Klek, Z.Korkulu, S.Koyama, Y.Kubota, J.Lee, M.Lettmann, R.Lozeva, K.Matsui, T.Miyazaki, S.Nishimura, C.Louchart, L.Olivier, S.Ota, Z.Patel, E.Sahin, C.Santamaria, C.Shand, P.-A.Söderström, G.L.Stefan, D.Steppenbeck, T.Sumikama, D.Suzuki, Zs.Vajta, V.Werner, J.Wu, Z.Xu, X.H.Zhou, Y.H.Zhang, H.S.Xu, F.S.Zhang, Spectroscopy of 65,6725Mn: Strong coupling in the N=40“island of inversion,Spectroscopy of65,67 25Mn: Strong coupling in the N=40“island of inversion, Physics Letters B, 784 (2018) 392–396
19. Ming-Ru Li, Nan Zhang, Feng-Shou Zhang,Computational investigation of the conformation transitions of DNA in modified water models, Journal of Molecular Liquids 271 (2018) 175–181
20. Zhishuai Ge, Cheng Li, Jingjing Li, Gen Zhang, Bing Li, Xinxin Xu, Cheikh A. T. Sokhna, Xiaojun Bao, Hongfei Zhang, Yu. S. Tsyganov, and Feng-Shou Zhang, Effect of shell corrections on the alpha-decay properties of 280--305Fl isotopes,Phys. Rev. C 98, 034312 (2018)
21. Feng-Shou Zhang, Cheng Li, Long Zhu, Peiwei Wen,Production cross sections for exotic nuclei with multinucleon transfer reactions,Front. Phys. 13(6), 132113 (2018)
22. W. J. Xie and F. S. Zhang, Effects of density and momentum-dependent potentials in Au+Au collisions at intermediate energies, Chinese Physics C Vol. 42, No. 10 (2018) 104103
23. T. H. Huang, W. Q. Zhang, M. D. Sun, Z. Liu, J. G. Wang, X. Y. Liu, B. Ding, Z. G. Gan, L. Ma, H. B. Yang, Z. Y. Zhang, L. Yu, J. Jiang, K. L. Wang, Y. S. Wang, M. L. Liu, Z. H. Li, J. Li, X. Wang, H. Y. Lu, A. H. Feng, C. J. Lin, L. J. Sun, N. R. Ma, D. X. Wang, F. S. Zhang, W. Zuo, X. H. Zhou, H. S. Xu, and G. Q. Xiao, Identification of the new isotope 224Np, PHYSICAL REVIEW C 98, 044302 (2018)
24. Nan Zhang, Ming-Ru Li, and Feng-Shou Zhang, Ethylene glycol solution-induced DNA conformational transitions, Chin. Phys. B Vol. 27, No. 11 (2018) 113102
25. Fan Zhang, Cheng Li, Pei-Wei Wen, Jian-Wei Liu, and Feng-Shou Zhang, Thermal bremsstrahlung photons probing the isospin dependence of the nuclear temperatures, Eur. Phys. J. A (2018) 54: 180
26. Xiaoqin Zhang, Feng Wang, Fengshou Zhang, and Yugui Yao, Control of the hyperbolic dispersion of dielectrics by an ultrashort laser pulse, PHYSICAL REVIEW B 97, 014310 (2018)
[2017年]
1. C. K. Li, F. Mao, Y. L. Fu, B. Liao, X. P. Ouyang, and F. S. Zhang, Electronic stopping power of slow H+ and He2+ ions in CdTe from first principle ,Nuclear Instruments and Methods in Physics Research B 392 (2017) 51–57
2.L. Zhu, J. Su, W. J. Xie, and F. S.Zhang, Theoretical study on production of heavy neutron-rich isotopes around the N=126 shell closure in radioactive beam induced transfer reactions, Physics Letters B 767 (2017) 437–442
3.P. W. Wen, Z. Q.Feng, F. Zhang, C. Li, C. J. Lin, and F. S. Zhang, Positive Q-Value Neutron Transfer Mediated Sub-Barrier Fusion Reactions, CHIN. PHYS. LETT. Vol. 34, No. 4 (2017) 042501
4.Pei-Wei Wen, Zhao-Qing Feng, Fan Zhang, Cheng Li, Cheng-Jian Lin, Feng-Shou Zhang, Effect of positive Q-value neutron transfers on sub-barrier fusion reactions, CHIN. PHYS. C 41,064102(2017)
5. Jingjing Li, Cheng Li, Gen Zhang, Long Zhu, Zhong Liu,and Feng-Shou Zhang,Production cross sections of neutron-rich 261−263No isotopes,PHYSICAL REVIEW C 95 , 054612 (2017)
6. Chang-kai Li, Fei Mao, Feng Wang, Yan-long Fu, Xiao-ping Ouyang, and Feng-Shou Zhang,Electronic stopping power of slow-light channeling ions in ZnTe from first principles,PHYSICAL REVIEW A 95 , 052706 (2017)
7.M.D. Sun, Z. Liu, T.H. Huang, W.Q. Zhang, J.G. Wang, X.Y. Liu, B. Ding, Z.G. Gan, L. Ma, H.B. Yang, Z.Y. Zhang, L. Yu, J. Jiang, K.L. Wang, Y.S. Wang, M.L. Liu, Z.H. Li, J. Li, X. Wang, H.Y. Lu, C.J. Lin, L.J. Sun, N.R. Ma, C.X. Yuan, W. Zuo, H.S. Xu, X.H. Zhou, G.Q. Xiao, C. Qi, F.S. Zhang,New short-lived isotope 223Np and the absence of the Z = 92 subshell closure near N = 126, Physics Letters B 771 (2017) 303
8.Long Zhu, Jun Su, Feng-Shou Zhang,Theoretical predictions on production of neutron-deficient nuclei with Z≥93 in multinucleon transfer reactions, Nuclear Physics A 964 (2017) 93
9. Bowen Jiang, Zhiguo Liu, Xuepeng Sun, Tianxi Sun, Biao Deng, Fangzuo Li, Longtao Yi, Mingnian Yuan, Yu Zhu, Fengshou Zhang, Tiqiao Xiao, Jie Wang, Renzhong Tai, Single bounce ellipsoidal glass monocapillary condenser for X-ray nano- imaging, Optics Communications 398 (2017) 91-94
10. Chao Zhang, Huai-Zhi Song, Fei Mao, Cheng-Jun Wang, Dong-Qi Wang, Feng-Shou Zhang, Molecular dynamics simulation of irradiation damage of SiC/Gra/SiC composites, Nuclear Instruments and Methods in Physics Research B, Volume 406, Part B, 1 September 2017, Pages 470-474
11. Cheng Li, Peiwei Wen, Jingjing Li, Gen Zhang, Bing Li, Feng-Shou Zhang, Production of heavy neutron-rich nuclei with radioactive beams in multinucleon transfer reactions, NUCL SCI TECH, 28(2017)110
12. T.H. Huang, W.Q. Zhang, M.D. Sun, Z. Liu, J.G. Wang, X.Y. Liu, B. Ding, Z.G. Gan, L. Ma, H.B. Yang, Z.Y. Zhang, L. Yu, J. Jiang, K.L. Wang, Y.S. Wang, M.L. Liu, Z.H. Li, J. Li, X. Wang, H.Y. Lu, C.J. Lin, L.J. Sun, N.R. Ma, Z.Z. Ren, F.S. Zhang, W. Zuo, X.H. Zhou, H.S. Xu, G.Q. Xiao, α-decay chain of the short-lived isotope 220Pa established using a digital pulse processing technique, PHYSICAL REVIEW C 96 , 014324 (2017)
13. Jun Su, Long Zhu, Ching-Yuan Huang, Wen-Jie Xie, Feng-Shou Zhang, Effects of symmetry energy and effective k-mass splitting on central 96Ru(96Zr)+96Zr(96Ru) collisions at 50 to 400 MeV/nucleon, PHYSICAL REVIEW C 96, 024601 (2017)
14. Long Zhu, Feng-Shou Zhang, Pei-Wei Wen, Jun Su, Wen-Jie Xie, Production of neutron-rich nuclei with Z=60-73 in reactions induced by Xe isotopes, PHYSICAL REVIEW C 96, 024606 (2017)
15. Chang-Kai Li, Feng Wang, Bin Liao, Xiao-Ping OuYang, and Feng-Shou Zhang,Ab initio electronic stopping power and threshold effect of channeled slow light ions in HfO2, Physical Review B 96 094301(2017)
16. Fei Mao, Cong-Zhang Gao, Feng Wang, Chao Zhang, and Feng-Shou Zhang, Ab Initio Study of Ferromagnetism Induced by Electronic Hole Localization in Al-Doped α?SiO2, The Journal of Physical Chemistry C (2017), 121 (41), pp 23055–23061
17. Pei-wei Wen, Cheng Li, Long Zhu, Cheng-jian Lin, and Feng-shou Zhang, Mechanism of Multinucleon Transfer Reaction Based on GRAZING Model and DNS Model, Journal of Physics G: Nuclear and Particle Physics 44 (2017) 115101
18. Wei Cheng, Yan-Long Fu, Min-Ju Ying, Feng-Shou Zhang, Eletronic Properties of Defects Induced by H Irradiation in Tantalum Phosphide, CHIN. PHYS. LETT. Vol. 34, No. 12 (2017) 127101
[2016年]
1. Cheng Li, Fan Zhang, Jingjing Li, Long Zhu, Junlong Tian, Ning Wang, and Feng-Shou Zhang, Multinucleon transfer in the 136Xe+208Pb reaction, Physical Review C 93, 014618, 2016
2. Jun Xu,Lie-Wen Chen,ManYee Betty Tsang,Hermann Wolter,Ying-Xun Zhang,Joerg Aichelin,Maria Colonna, Dan Cozma, Pawel Danielewicz, Zhao-Qing Feng,Arnaud Le F`evre, Theodoros Gaitanos,Christoph Hartnack, Kyungil Kim, Youngman Kim, Che-Ming Ko, Bao-An Li, Qing-Feng Li, Zhu-Xia Li,Paolo Napolitani, Akira Ono, Massimo Papa, Taesoo Song, Jun Su, Jun-Long Tian, Ning Wang,Yong-Jia Wang,Janus Weil, Wen-Jie Xie, Feng-Shou Zhang,and Guo-Qiang Zhang, Understanding transport simulations of heavy-ion collisions at 100A and 400A MeV: Comparison of heavy-ion transport codes under controlled conditions, Physical Review C 93, 044609 ,2016
3. C. Li, S. R. Souza, M. B. Tsang, and and F.S.Zhang, Nuclear energy release from frarmentation, Nuclear Physics A 952, 18, 2016
4.Long Zhu,Jun Su,and Feng-Shou Zhang,Influence of the neutron numbers of projectile and target on the evaporation residue cross sections in hot fusion reactions, Physical Review C 93,064610, 2016
5.J Wen,H.Shen,Y.R.Zhai,and F.S.Zhang, Simulation of DNA in water/ethanol mixturer, Physica A 450, 515, 2016
7. J. Su, C. Y. Huang, W. J. Xie, and F. S. Zhang,Effects of in-medium nucleon-nucleon cross sections on stopping observable and ratio of free protons in heavy-ion collisions at 400 MeV/nucleon, Eur. Phys. J. A (2016) 52: 207
8. F.Zhang, C. Li, P. W. Wen, and F. S. Zhang, Shear viscosity to entropy density ratio and phase transition in multifragmentation of quasiprojectile,Eur. Phys. J. A (2016) 52:281
9. Z. P. Wang, F. S. Zhang, X. Xu, Y. Wang, and Y. Qian, Dynamics of water trimer in femtosecond laser pulses, Modern Physics Letters B (2016) 31(21) 1650272
10. L. Zhu,J. Su, C. Y. Huang, and F. S. Zhang, Effects of entrance channel on fusion probability in hot fusion Reactions, Chinese Physics C 40 (2016) 124105
11. F. Wang, Y. G. Yao, F. Calvayrac, and F. S.Zhang, Extraction of state-resolved information from systems with a fractional number of electrons within the framework of time-dependent density functional theory, The Journal of Chemical Physics 145(11) (2016) 114104
[2015年]
1. F. Zhang, C. Li, L. Zhu, H. Liu, and F. S. Zhang, Effect of fragment emission time on the temperature of momentum quadrupole fluctuations, Physical Review C 91, 034617, 2015
2. W. J. Xie, Z. Q. Feng, J. Su, and F. S. Zhang, Probing the momentum-dependent symmetry potential via nuclear collective flows Physical Review C 91, 054609, 2015
3. C. C. Guo, Y. J. Wang, Q. F. Li, P. W. Wen, and F. S. Zhang, The mass-splitting effect on flows in heavy-ion collisions at the Fermi-energy domain, Physical Review C 91, 054609, 2015
4. K. V. Cherevko, L. A. Bulavin, L. L. Jenkovszky, V. M. Sysoev and F. S. Zhang, Curvature correction term as a constraint for the Skyrme interaction, Physical Review C 92, 014308, 2015
5. L. Zhu, Z. Q. Feng and F. S. Zhang, Production of heavy neutron-rich nuclei in transfer reactions within the dinuclear system model, J. Phys. G: Nucl. Part. Phys. 42,085102, 2015
6. D. H. Zhang, W. J. Xie, J. Wen, J. Su and F. S . Zhang, Production cross section of neutron-rich calcium isotopes in heavy ion collisions, Chinese Physics C 39, 044103, 2015
7. F. Mao, C. Zhang, and F. S. Zhang, Theoretical study of the channeling effect in the electronic stopping power of silicon carbide nanocrystal for low-energy protons and helium ions , Nucl. Instr. Meth. B 342, 215, 2015
8. H. Shen, W. Cheng and F. S. Zhang, Structural conservation of the short a-helix in modified higher and lower polarity water solutions, RSc. Adv. 5, 9627, 2015
9. H. Shen, T. Hao, J. Wen, R. R. Tan, and F. S. Zhang, Properties of Pure Water and Sodium Chloride Solutions at High Temperatures and Pressures: A Simulation Study, Molecular Simulation, 2015
10. H.Shen, T.Hao, and F.S. Zhang, Solvation of halogen ions in aqueous solutions at 500 K-600 K under 100 atm, Chin. Phys. B . 2015, 24(12): 123601
11. K.V. Cherevko,L.L. Jenkovszky, V.M. Sysoev, and F. S. Zhang,Nuclei and Nuclear Reaction,Ukrainian Journal of Physics 2015. 60 (8): 708-722
[2014年]
1. J. Su, K. Cherevko, W. J. Xie and F. S. Zhang, Nonisotropic and nonsingle explosion in central 129Xe + 120Sn collisions at 50–125 MeV/nucleon, Physical Review C 89, 014619, 2014
2. K. Cherevko, L. Bulavin, J. Su, V. Sysoev and F. S. Zhang, "Doughnut" nuclear shapes in head-on heavy ion collisions, Physical Review C 89, 014618, 2014
3. L. Zhu, W. J. Xie and F. S. Zhang, Production cross sections of superheavy elements Z=119 and 120 in hot fusion reactions, Physical Review C 89, 014619, 2014
4. F. Mao, C. Zhang, J. X. Dai and F. S. Zhang, First-principles study of the threshold effect in the electronic stopping power of LiF and SiO2 for low-velocity protons and helium ions,Physical Review A 89, 022707, 2014
5. H. Shen, W. Cheng and F. S. Zhang, Mixed-salt effects on the conformation of a short salt-bridge-forming α helix: A simulation study, Physical Review E 89, 022717, 2014
6. C. Z. Gao, J. Wang, F. Wang and F. S. Zhang, Theoretical study on collision dynamics of H+ + CH4 at low energies,The Journal of Chemical Physics 140, 054308, 2014
7. R. R. Tan, D. Q. Wang, L. Hu and F. S. Zhang, Probing the Reactivity of Hydroxyl Radicals toward Isolated Thymine Using Theoretical Calculations, International Journal of Quantum Chemistry 114(6), 367, 2014
8. F. Mao, C. Zhang, C. Z. Gao, J. X. Dai and F. S. Zhang, The effects of electron transfer on the energy loss of slow He2C, C2C, and C4C ions penetrating a graphene fragment, Journal of Physics Condensed Matter 26, 085402, 2014
9. R. R. Tan, D. Q. Wang and F. S. Zhang, Damage mechanism of hydroxyl radicals toward adenine–thymine base pair, Chinese Physics B 23(2), 027103, 2014
10. J. Wang, C. Z. Gao, F. Calvayrac and F. S. Zhang, Collision dynamics of proton with formaldehyde: Fragmentation and ionization,The Journal of Chemical Physics 140, 124306, 2014
11. J. Wen, X. Shen, H. Shen and F. S. Zhang, Hofmeister series and ionic effects of alkali metal ions on DNA conformation transition in normal and less polarised water solvent, Molecular Physics, vol. 112, issue 20, 2014
12. W. Cheng, M. J. Ying, F. S. Zhang and H. Y. Zhou, Magnetism of hydrogen-irradiated silicon carbide, Physics Letters A , 37(26-27), 1897-1902, 2014
13. Wen-jie Xie, F. S. Zhang, Nuclear collective flows as a probe to the neutron-proton effective mass spliting, Physics Letters B , 735, 250-255, 2014
14. Long Zhu, Zhao-Qing Feng, Cheng Li, and F. S. Zhang, Orientation effects on evaporation residue cross section in 48Ca-induced hot fusion reactions, Physical Review C , 90, 014612, 2014
15. Chao Zhang, Fei Mao, Jinxia Dai, and Feng-Shou Zhang, Irradiation effects in single-Walled cardon nanotubes: Density-functional theory based treatments, Computational Materials Science, 93, 15-21, 2014
16. Jinxia Dai, Chao Zhang, Fei Mao, Wei Cheng and Feng-Shou Zhang, Dynamical processes of low-energy carbon ion collision with the graphene supported by diamond, Eur. Phys. J. Appl. Phys, 67, 30402, 2014
17. Phuong Mai Dinh, Cong Zhang Gao, Peter Klupfel, Paul-Gerhard, Eric Suraud, Marc Vincendon, Jing Wang, Feng-Shou Zhang, A density functional theoty study of NA(H2O)n: an example of the impact of self-interaction corrections, Eur. Phys. J. D , 68, 239, 2014
18. K. Cherevko, L. Bulavin, L. L. Jenkovszky, V. M. Sysoev and F. S. Zhang, Evaluation of the curvature-correction term from the equation of state of nuclear matter, Physical Review C 90, 017303, 2014
19. Chenchen Guo, Yongjia Wang, Qingfeng Li, and F. S. Zhang, Effect of the spin-orbit interaction on flows in heavy-ion collisions at intermediate energies, Physical Review C 90, 034606, 2014
[2013年]
1. W. J. Xie, J. Su, L. Zhu and F. S. Zhang, Neutron-proton effective mass splitting in a Boltzmann-Langevin approach, Physical Review C 88, 061601(R), 2013
2. J. Su and F. S. Zhang, Non-equilibrium and residual memory in momentum space of fragmenting sources in central heavy-ion collisions, Physical Review C 87, 017602, 2013
3. C. Z. Gao, J. Wang and F. S. Zhang, Dynamics of proton collisions with acetylene, ethylene and ethane at 30 eV, Chemical Physics 410, 9, 2013
4. W. J. Xie, J. Su, L. Zhu and F. S. Zhang, Symmetry energy and pion production in the Boltzmann–Langevin approach, Physics Letters B 718, 1510, 2013
5. J. Wang, C. Z. Gao and F. S. Zhang, Collision dynamics of proton to formic acid at 5 eV: The formation and evolution of protonated HCOOH, Chemical Physics Letters 556, 256, 2013
6. Y. L. Jiao, F. Wang, X. H. Hong, W. Y. Su, Q. H. Chen, F. S. Zhang, Electron dynamics in CaB6 induced by one- and two-color femtosecond laser, Physics Letters A 377, 823, 2013
7. C. Zhang, F. Mao and F. S. Zhang, Electron–ion coupling effects on radiation damage in cubic silicon carbide, Journal of Physics: Condensed Matter 25, 235402, 2013
8. X. Shen, K. K. Ding, F. S. Zhang, Ion effects of Sr2+, Cs+ and I− on DNA in aqueous solutions, Chemical Physics Letters 574, 100, 2013 (has been downloaded more than 175 times)
9. H. Shen, X. Shen, W. Cheng and F. S. Zhang, Molecular Insights into the Mechanisms of Cation-Type Specific Stability and Denaturation of Poly-L-Glutamate: A Simulation Study, Molecular Simulation 39, 842, 2013
10. C. Z. Gao, J. Wang, F. S. Zhang, Collision of H+ + CH4 at 30 eV: A simulation study, Nucl. Instr. Meth. B 307, 225, 2013
11. J. Wang, C. Z. Gao, F. S. Zhang, The steric effect in the formation of protonated HCOOH, Nucl. Instr. Meth. B 307, 277, 2013
12. L. Zhu, Jun Su, W. J. Xie, F. S. Zhang, Study of the dynamical potential barriers in heavy ion collisions, Nuclear Physics A 915, 90, 2013
13. F. Wang, L. Jiang, X. H. Hong, Y. L. Jiao, J. G. Wang and F. S. Zhang, AN EFFECTIVE METHOD FOR STATE POPULATION WITHIN TIME-DEPENDENT DENSITY FUNCTIONAL THEORY, The Journal of Chemical Physics 139, 094108, 2013
14. C. Zhang, F. Mao and F. S. Zhang, Collision dynamics of energetic carbon ions impinging on single-walled carbon nanotubes, The European Physical Journal Applied Physics 64, 10401, 2013 (selected as the cover story)
15. Q. Zhao, F. S. Zhang and H. Y. Zhou, Collision Dynamics of X@C60 (X = He, Ne, Ar) at Low Energies, Mod. Phys. Lett. B 27, 1350225(2013)
[2012年]
1. J. Su, L. Zhu, W. J. Xie and F. S. Zhang, Nuclear temperatures from kinetic characteristics , PHYSICAL REVIEW C 85, 017604(2012)
2. X. Shen, N. A. Atamas and F. S. Zhang, Competition between Na+ and Rb+ in the minor groove of DNA, PHYSICAL REVIEW E 85, 051913(2012)
3. C. Zhang, F. Mao, F. S. Zhang, Y. W. Zhang, Impact energy dependence of defect formation in single-walled carbon nanotubes, Chemical Physics Letters 541(5), 92 (2012)
4. W. Cheng, G. Q. Liu, F. S. Zhang, H. Y. Zhou, Enhanced magnetism of SiC with He defects, Physics Letters A 376, 45, 3363(2012)
5. F. Mao, C. Zhang, Y. W. Zhang and F. S. Zhang, Collision Energy Dependence of Defect Formation in Graphene, Chin. Phys. Lett. 2012, 29(7), 076101
6. Z. P. Wang, F. S. Zhang, Y. Zhu, G. H. Xie, Angle-Dependent Irradiation of C4 in Femtosecond Laser Pulses, Chin. Phys. Lett. 2012, 29(7), 073101
7. R. R. Tan, X. Shen, L. Hu and F. S. Zhang, Liquid to glass transition of tetrahydrofuran and 2-methyltetrahydrofuran, Chin. Phys. B. 2012, 21(8), 86402
8. M. J. Ying, W. Cheng, P. Zhang, F. S. Zhang, DFT study of the coverage effects for Al adsorption on Si(111) surfaces, Comp. Mat. Science 2012, 53(1), 382
9. J. H. Zhang, N. Y. Wang and F. S. Zhang, Analysis of Accumulating Ability of Heavy Metals in Lotus (Nelumbo nucifera) Improved by Ion Implantation, Plasma Science and Technology 2012, 14(5), 424
[2011年]
1. J. Su, F. S. Zhang and B. A. Bian, Odd-even effect in heavy-ion collisions at intermediate energies , PHYSICAL REVIEW C 83, 014608(2011)
2. J. Su and F. S. Zhang, Isotopic dependence of nuclear temperatures, PHYSICAL REVIEW C 84, 037601(2011)
3. X. Shen, B. Gu, S. A. Che and F. S. Zhang, Solvent effects on the conformation of DNA dodecamer segment: A simulation study, THE JOURNAL OF CHEMICAL PHYSICS 135, 034509(2011)
4. H. Y. Zhou, F. G. Deng, W. Cheng, F. S. Zhang, Q. Zhao, J. Su, L. M. Dong, Q. Zhu, G. Y. Fan, Associated gamma radiation in interaction of 14.9 MeV neutrons with natural silicon, Nuclear Instruments and Methods in Physics Research A 648, 192–209(2011)
5. W. Cheng, M. J. Ying, F. S. Zhang, H. Y. Zhoua, S. F. Ren, Density functional study on helium and hydrogen interstitials in silicon carbide, Nuclear Instruments and Methods in Physics Research B 269, 2067–2074(2011)
6. Z. P. Wang, P. M. Dinh, P. G. Reinhard, E. Suraud, F. S. Zhang, Nonadiabatic Effects in the Irradiation of Ethylene, International Journal of Quantum Chemistry 111, 480–486(2011)
7. H. C. Yu, J. Zhao, J. Xu, X. Q. Li, F. S. Zhang, Y. G. Wang, C. Carr, J. Zhang, G. F. Zhang, Detection of Changes in DNA Methylation Induced by Low-Energy Ion Implantation in Arabidopsis thaliana, RADIATION RESEARCH 175, 599–609(2011)
8. M. Liu, Z. X. Li, N. Wang and F. S. Zhang, Exploring nuclear symmetry energy with the isospin dependence in neutron skin thickness of nuclei, Chinese Physics C (HEP&NP) 2011, 35(7), 629-63
9. N. Wang, Z. Xu, F. S. Zhang, T. Zhang, Y. Su, M. L. Lian, Y. L. Zhou, Phenotype Observation and Variation Analysis of F2 Generation of Ion mI planted Chili Pepper Seeds, Agricultural Science & Technology 2011, 12( 8), 1103-1106
[2010年]
1. M. Liu, N. Wang, Z. X. Li, F. S. Zhang, Nuclear symmetry energy at subnormal densities from measured nuclear masses , PHYSICAL REVIEW C 82, 064306(2010)
2. H. Y. Zhou, F. G. Deng, Q. Zhao, J. Su, B. K. Zhao, L. M. Dong, G. Y. Fan and F. S. Zhang, Investigation of discrete γ radiation in interactions of 14.9-MeV neutrons with natural silicon by a total γ -radiation measurement technique, PHYSICAL REVIEW C 82, 047602(2010)
3. B. A. Bian, F. S. Zhang, H. Y. Zhou, Effect of shell structure in the fusion reactions, Eur. Phys. J. A 43, 67–71(2010)
4. S. S. Du and F. S. Zhang, Entrance channel effect and fusion cross section in the synthesis of heavy and superheavy nuclei, Int. J. Mod. Phys. E 2010, 19(8-9), 1603-161
5. Z. P. Wang, J. Wang and F. S. Zhang, Excitation and ionization of ethylene by charged projectiles, Chin. Phys. Lett. 2010, 27 (1), 013101
6. Z. P. Wang, J. Wang and F. S. Zhang, Collision of Low Energy Proton with Ethylene, Chin. Phys. Lett. 2010, 27 (5), 053401
7. B. A. Bian and F. S. Zhang, Effects of the entrance channel mass asymmetry in fusion reactions, Chin. Phys. C 2010, 34(10), 1602-1608
8. B. Gu, F. S. Zhang, Y. G. Huang and X. Fang, Variations of water's local-structure induced by solvation of NaCl, Chin. Phys. B 2010, 19(3), 036101
[2009年]
1. B. K. Zhao, Y. B. Sheng, F. G. Deng, F. S. Zhang, H. Y. Zhou, STABLE AND DETERMINISTIC QUANTUM KEY DISTRIBUTION BASED ON DIFFERENTIAL PHASE SHIFT, Int. J. Quan. Info. 2009, 7, 739–745
2. B. A. Bian, F. S. Zhang, H. Y. Zhou, Fusion enhancement in the reactions of neutron-rich nuclei, Nuclear Physics A 2009, 829, 1–12
3. Q. Zhao, F. S. Zhang, Z. P. Wang, H. Y. Zhou, Secondary Beam Fragments Produced by 200 and 400MeV/u 12C6+ Ions in Water, Chin. Phys. Lett. 2009, 26, 092501
4. B. K. Zhao, F. G. Deng, F. S. Zhang, H. Y. Zhou, Genuine tripartite entanglement in quantum brachistochrone evolution of a three-qubit system, Physical Review A 2009, 80(5), 052106
5. K. Li, S. Jiang, H. C. Yu, J. Zhao, F. S. Zhang, C. Christopher, J. Zhang, G. F. Zhang, Analysis of charge and mass effects on peroxidase expressions and activities in Arabidopsis thaliana after low-energy ion irradiation, Mutation Research-Genetic Toxicology and Environmental, 2009, 680 (1-2), 64-69
6. S. S. Du, Bian, B. A. Bian, M. Liu, Z. Q. Feng, F. S. Zhang, Shell effect and capture cross sections in the synthesis of superheavy nuclei, Sci China Ser G, 2009, 52(10), 1489-1493
7. Y. Chen, F. S. Zhang, J. Su, A discussion on whether 15−20C are all skin nuclei via isospin-dependent Boltzmann–Langevin Equation, Chin. Phys. Lett. 2009, 26 (11), 112502
[2008年]
1. B. Gu, F. S. Zhang, Z. P. Wang and H. Y. Zhou, Solvent-Induced DNA conformational transition , Physical Review Letters 100, 088104, 2008
2. B. A. Bian, F. S. Zhang, H. Y. Zhou, Entrance channel mass asymmetry dependence of compound nucleus formation , Physics Letters B 665, 314, 2008
3. B. Gu, F. S. Zhang, Z. P. Wang and H. Y. Zhou. The salvation of NaCl in model water with different hydrogen bond strength ,The Journal of Chemical Physics 129,184505, 2008
4. B. A. Bian, F. S. Zhang, H. Y. Zhou, Fragmentation cross sections of 20Ne collisions with different targets at 600 MeV/nucleon , Nuclear Physics A 807, 71, 2008
5. Z. Q. Feng, G. M. Jin, F. S. Zhang, Dynamical analysis on heavy- ion fusion reactions near Coulomb barrier , Nuclear Physics A 802, 91, 2008
6. B. Gu, F. S. Zhang, Z. P. Wang and H. Y. Zhou, The non-ideal solvation of NaCl in solvent: a simulation study , Molecular Physics 106, 081047, 2008
7. F. S. Zhang, B. A. Bian, H. Y. Zhou, Isospin effects of threshold energy of radial flow in heavy ion collisions, International Journal of Modern Physics E 17, 1865, 2008
8. B. A. Bian, F. S. Zhang, H. Y. Zhou, Fragmentation cross sections of 12C on different target at beam energies from 50 to 100 MeV/nucleon, Chinese Physics Letters 25, 51, 2008
9. Q. Zhao, F. S. Zhang, H. Y. Zhou, Collision dynamics of He@C60+He@C60 at low energies, Science in China Series G-Physics and Astronomy 52, 767, 2008
10. S. S. Du, B. A. Bian, F. S. Zhang, Shell effect in synthesis of superheavy nuclei, International Journal of Modern Physics E 17(9), 1979, 2008
[2008年之前]
1. W. Zhang, F. S. Zhang and Z. Y. Zhu, Molecular dynamics study on the melting phase transition of aluminum clusters with around 55 atoms, Physical Review B 74, 033412, 2006
2. Z. Q. Feng, F. S. Zhang, G. M. Jin, X. Huang, Improved isospin dependent quantum molecular dynamics model and its application to fusion reaction near coulomb barrier, Nuclear Physics A 750, 232, 2005
3. F. S. Zhang and R. M. Lynden-Bell, Solvent-induced symmetry breaking: varying solvent strength, Physical Review E 71, 021502, 2005
4. F. S. Zhang and R. M. Lynden-Bell, A simulation study of vibrational relaxation of I-3 in liquids, Molecular Physics 101,1641, 2003
5. F. S. Zhang and R. M. Lynden-Bell, Temperature and solvent dependence of vibrational relaxation of triodide: a simulation study, Journal of Chemical Physics 119, 6119, 2003
6. F. S. Zhang and R. M. Lynden-Bell, Solvent-induced symmetry breaking, Physical Review Letters 90, 185505, 2003
7. L. W. Chen, F. S. Zhang, Z. H. Lu, and H. R. Ma, Isospin dependent Pauli blocking and nucleon mean free path in isospin- asymmetric nuclear matter, Physical Review C 64, 064315, 2001
8. Z. X. Wang, X. Z. Ke, and Z. Y. Zhu, F. S. Zhang, M. L. Ruan, J. Q. Yang, Carbon-atom chain formation in the core of nanotubes, Physical Review B 61, R2472, 2000
9. F. S. Zhang, L. W. Chen, W. F. Li and Z. Y. Zhu, Isospin effects on squeeze-out flow in heavy-ion collisions, European Physical Journal A 9, 149, 2000
10. F. Wang, F. S. Zhang, Y. Abe, Pseudo-rotating Na4 at finite temperatures: tight-binding molecular dynamics studies,Chemical Physics Letters 326, 461, 2000
11. F. S. Zhang, L. W. Chen, Z. Y. Ming, and Z. Y. Zhu, Isospin dependence of nuclear multifragmentation in 112Sn +112Sn and 124Sn+124Sn collisions at 40 MeV/nucleon, Physical Review C 60, 064604, 1999
12. L. W. Chen, F. S. Zhang, G. M. Jin and Z. Y. Zhu, Isospin dependence of radial flow in heavy ion collisions, Physics Letters B 459, 21, 1999
13. F. S. Zhang, E. Suraud, F. Spiegelmann, Vibration properties of sodium microclusters, Chemical Physics Letters 300, 595, 1999
14. X. Z. Ke, Z. Y. Zhu, F. S. Zhang, F. Wang, Z. X. Wang, Molecular dynamics simulation of C20 fullerene, Chemical Physics Letters 313, 40, 1999
15. L. W. Chen, F. S. Zhang, G. M. Jin, Analysis of isospin dependence of nuclear collective flow in an isospin dependent quantum molecular dynamics model, Physical Review C 58, 2283, 1998
16. F. S. Zhang, Phase transitions, correlation and fluctuations of nuclear multifragmentation, Zeitschrift Fur Physik A 356, 163, 1996
17. F. S. Zhang, E. Suraud, F. Spiegelmann, V. Frayssé, F. Chatelin, R. Glowinski, Systematic Study of (Nan)2 Dimer Transient State in Nan+ Nan Collisions (n = 8, 9, 19, and 20), Zeitschrift fur Physik D 35, 131, 1995
18. F. S. Zhang and E. Suraud, Analysis of multifragmentation in a Boltzmann-Langevin approach, Physical Review C 51, 3201, 1995
19. F. S. Zhang, F. Spiegelmann, E. Suraud, V. Frayssé, R. Poteau, R. Glowinski, F. Chatelin, On the formation of transient (Na19)2 and (Na20)2 cluster dimers from molecular dynamics simulations, Physics Letters A 193, 75, 1994
20. F. S. Zhang and E. Suraud, Boltzmann-Langevin equation, dynamical instability, and multifragmentation, Physics Letters B 319, 35, 1993
