【个人简介】

罗文，男，汉族，南华大学教授，博士生导师，科研部副部长/军工质量处副处长，荣获湖南省芙蓉学者奖励计划“青年学者”、湖南省湖湘青年英才（科技创新类）、湖南省121创新人才、湖南省普通高校青年骨干教师（考评“优秀”）、湖南青年五四奖章、 湖南省优秀硕士学位论文指导教师。曾在英国思克莱德大学、欧洲极端光基础设施－核物理部等海外知名高校做博士后和访学研究。主要学术兼职包括：《核技术》期刊青年编委、中国核学会青年科技奖评审专家、中国核工业教育学会青年工作委员会委员、全国核电子学与核探测技术分会理事、国家自然科学基金项目函评专家、《自然·通讯》、《科学报告》等10多个SCI源刊审稿专家、湖南省自然科学基金项目会评专家、国家科技专家库入库专家、衡阳市科协十大代表等。

长期从事激光辐射源及其应用（医用同位素产生、核废物嬗变、核共振无损检测）研究。主持承担国家自然科学基金面上、青年和合作研修项目、湖南省自然科学基金面上和青年项目、国防科技重点实验室自主科研项目等科研课题近20项。在《物理评论应用》《物理评论C》《科学报告》《应用物理快报》等刊物上发表SCI收录论文60余篇，其中第一（或通讯）作者论文30余篇；发表EI收录论文3篇；以第一发明人获国家发明专利1件。近年来开展学术报告和专家讲座30多次，包括邀请报告10多次。

长期承担《加速器原理及应用》、《核技术应用》、《科技论文写作》等课程的本科生和研究生教学工作，其中《加速器原理及应用》被成功遴选为学校双语课程、精品在线开放课程。主持或承担包括教育部首批“新工科”研究与实践项目在内的国家和省部级教研课题近10项，发表教研论文10多篇，其中5篇论文获得省级和校级教学研究与改革优秀论文奖。主持获得湖南省研究生教学成果二等奖1项。近年指导硕博士生20余名，其中直博生2名、国家奖学金7名、省优秀毕业生3名、省优硕1名、校优硕1名；指导本科生20余名，并在SCI/EI/CSCD期刊上发表学术论文10余篇。

【近年科研项目】

[1] 2022.01-2022.12，国家自然科学基金理论物理专款科技活动项目，基于大科学装置的核光子学前沿讲习班（12147220），经费40万，主持；

[2] 2017.01-2020.12，国家自然科学基金项目，基于激光等离子体加速的光核反应产生医用放射性同位素研究（11675075），经费72万，主持；

[3] 2015.01-2017.12，国家自然科学基金项目，强激光-稠密等离子体相互作用产生高亮度的汤姆逊背散射阿秒X射线（11405083），经费28万，主持；

[4] 2014.01-2016.12，国家自然科学基金项目，强激光与靶相互作用中超短、相对论正电子束的产生与加速研究（11347028），经费20万，主持；

[5] 2013.01-2013.12，国家自然科学基金项目，能量可调的新型超快康普顿X/γ光源研究（11247215），经费5万，主持；

[6] 2018.10-2021.10，湖南省湖湘青年英才项目，罗文湖湘青年英才（2018RS3096），经费50万，主持；

【近年发表论著】

[1] Guan-Lin Wang, Hao-Yang Lan, Xiao-Ming Shi, Zhi-Chao Zhu, Wen Luo*. A general framework for describing photofission observables of actinides at an average excitation energy below 30 MeV. Chinese Physics C  46 (2022) 084102

[2] H. Y. Lan, W. Luo*, Y. Xu*, D. L. Balabanski, G. L. Guardo, M. La Cognata, D. Lattuada, C. Matei, R. G. Pizzone, T. Rauscher, and J. L. Zhou. Feasibility of studying astrophysically important charged-particle emission with the variable energy γ-ray system at the Extreme Light Infrastructure–Nuclear Physics facility. Physical Review C 105, 044618 (2022).

[3] T.-T. Qin, W. Luo*, H.-Y. Lan, and W.-M. Wang*. Ultrafast probing of plasma ion temperature in proton–boron fusion by nuclear resonance fluorescence emission spectroscopy. Matter Radiat. Extremes 7 (2022) 035901.

[4] X.Y. Sun, W. Luo*, H.Y. Lan, Y. M. Song, Q.Y.Gao, Z. C. Zhu, J.G. Chen*, and X. Z. Cai. Transmutation of long‑lived fission products in an advanced nuclear energy system. Scientific Reports 12 (2022) 2240.

[5] Haoyang Lan, Tan Song, Zhuhua Luo, Jianliang Zhou, Zhichao Zhu, and Wen Luo*. Isotope-sensitive imaging of special nuclear materials using computer tomography based on scattering nuclear resonance fluorescence. Physical Review Applied 16 (2021) 054048

[6] Hao-Yang Lan, Tan Song, Jia-Lin Zhang, Jian-Liang Zhou, Wen Luo*. Rapid interrogation of special nuclear materials by combining scattering and transmission nuclear resonance fluorescence spectroscopy. Nuclear Science and Techniques 32 (2021) 84

[7] Tao Yang, Guang-yue Hu, Meng-ting Li, Chang-wang Lian, Zhen-chi Zhang, Wen Luo, Yue Ma, and Jian Zheng. Compact broadband Compton spectroscopy used for intense laser-driven gamma-rays. Review of scientific instruments, 92 (2021) 053546

[8] Liang-qi Zhang, Shao-dong Wu, Hai-rong Huang, Hao-yang Lan, Wei-yuan Liu, Yu-chi Wu, Yue Yang, Zong-qing Zhao, Zhi-chao Zhu, and Wen Luo*. Brilliant attosecond γ-ray emission and high-yield positron production from intense laser-irradiated nano-micro array. Physics of Plasmas 28 (2021) 023110

[9] Y. R. Shou, D. F. Kong, P. J. Wang, Z. S. Mei, Z. X. Cao, Z. Pan, Y. H. Li, S. R. Xu, G. J. Qi, S. Y. Chen, J. R. Zhao, Y. Y. Zhao, C. B. Fu, W. Luo, G. Q. Zhang, X. Q. Yan, and W. J. Ma. High-efficiency water-window x-ray generation from nanowire array targets irradiated with femtosecond laser pulses. Optics Express 29 (2021) 5427-5436

[10] Haoyang Lan, Tan Song, Xingde Huang, Shengqiang Zhao, Jianliang Zhou, Zhichao Zhu, Yi Xu, Dimiter L. Balabanski, and Wen Luo*. Nuclear resonance fluorescence drug inspection. Scientific Reports 11 (2021) 1306

[11] Wan-ting Pan, Tan Song, Hao-yang Lan, Zhi-guo Ma, Jing-li Zhang, Zhi-chao Zhu, Wen Luo*. Photo-excitation production of medically interesting isomers using intense γ-ray source. Applied Radiation and Isotopes 168 (2021) 109534

[12] Peter Rubovič*, Aldo Bonasera, Petr Burian, Zhengxuan Cao, Changbo Fu, Defeng Kong, Haoyang Lan, Yao Lou, Wen Luo, Chong Lv, Yugang Ma, Wenjun Ma*, Zhiguo Ma, Lukáš Meduna, Zhusong Mei, Yesid Mora, Zhuo Pan, Yinren Shou, Rudolf Sýkora, Martin Veselský, Pengjie Wang, Wenzhao Wang, Xueqing Yan, Guoqiang Zhang, Jiarui Zhao, Yanying Zhao, Jan Žemlička. Measurements of D–D fusion neutrons generated in nanowire array laser plasma using Timepix3 detector. Nucl. Instr. and Meth. A 985 (2021) 164680

[13] Zhen-Chi Zhang, Tao Yang, Guang-Yue Hu*, Meng-Ting Li, Wen Luo, Ning An, and Jian Zheng. Compact broadband high-resolution Compton spectroscopy for laser-driven high-flux gamma rays. Matter and Radiation at Extremes 6, 014401 (2021)

[14] Zhi-chao Zhu, Wei-ting Gong, Hao-yang Lan, Wen Luo*. Transmutation of radioactive cesium and iodine using gamma-radiation from light nuclei under proton bombardment. Annals of Nuclear Energy 140 (2020) 107158

[15] ZhiGuo Ma, HaoYang Lan, WeiYuan Liu, ShaoDong Wu, Yi Xu, ZhiChao Zhu, and Wen Luo*, Photonuclear production of medical isotopes 62, 64Cu using intense laser-plasma electron source. Matter and Radiation at Extremes 4 (2019) 064401

[16] I. C. E., B. Shen, D. Neely, G. Sarri, K. A. Tanaka, P. McKenna, S. P. D. Mangles, T.-P. Yu, W. Luo, X.-L. Zhu, and Y. Yin. Quantum electrodynamics experiments with colliding petawatt laser pulses. High Power Laser Science and Engineering 7 (2019) e10

[17] H. Utsunomiya, T. Renstrøm, G. M. Tveten, S. Goriely, T. Ari-izumi, D. Filipescu, J. Kaur, Y.-W. Lui, W. Luo, S. Miyamoto, A. C. Larsen, S. Hilaire, S. Péru, and A. J. Koning. γ-ray strength function for thallium isotopes relevant to the 205Pb-205Tl chronometry. Physical Review C 99 (2019) 024609

[18] H. Y. Lan, Y. Xu*, W. Luo*, D. L. Balabanski, S. Goriely, M. La Cognata, C. Matei, A. Anzalone, S. Chesnevskaya, G. L. Guardo, D. Lattuada, R. G. Pizzone, S. Romano, C. Spitaleri, A. Taffara, A. Tumino, and Z. C. Zhu. Determination of the photodisintegration reaction rates involving charged particles: Systematic calculations and proposed measurements based on the facility for Extreme Light Infrastructure–Nuclear Physics, Physical Review C 98 (2018) 054601

[19] Wei-Yuan Liu, Wen Luo*, Tao Yuan, Ji-Ye Yu, Min Chen*. Dense pair plasma generation and its modulation dynamics in counter-propagating laser field. Chinese Physics B 27 (2018) 105202

[20] Wen Luo*, Shao-Dong Wu, Wei-Yuan Liu, Yan-Yun Ma, Fei-Yu Li, Tao Yuan, Ji-Ye Yu, Min Chen* and Zheng-Ming Sheng. Enhanced electron-positron pair production by two obliquely incident lasers interacting with a solid target. Plasma Phys. Control. Fusion 60 (2018) 095006

[21] Wen Luo*, Wei-Yuan Liu, Tao Yuan, Min Chen*, Ji-Ye Yu, Fei-Yu Li, D. Del Sorbo, C. P. Ridgers, and Zheng-Ming Sheng. QED cascade saturation in extreme high fields. Scientific Reports 8 (2018) 8400

[22] J. Y. Yu, T. Yuan, W. Y. Liu, M. Chen*, W. Luo*, S. M. Weng, and Z. M. Sheng. QED effects induced harmonics generation in extreme intense laser foil interaction. Plasma Phys. Control. Fusion 60 (2018) 044011

[23] D. Del Sorbo, D. R. Blackman, R. Capdessus, K. Small, C. Slade-Lowther, W. Luo, M. J. Duff, A. P. L. Robinson, P. McKenna, Z. M. Sheng, J. Pasley, and C. P. Ridgers. Efficient ion acceleration and dense electron-positron plasma creation in ultra-high intensity laser-solid interactions. New J. Phys. 20 (2018) 033014.

[24] T. Yuan, J. Y. Yu, W. Y. Liu, S. M. Weng, X. H. Yuan, W. Luo, M. Chen, Z. M. Sheng, and J. Zhang. Spatiotemporal distributions of pair production and cascade in solid targets irradiated by ultra-relativistic lasers with different polarizations. Plasma Phys. Control. Fusion 60 (2018) 065003

[25] W. Y. Liu, W. Luo*, T. Yuan, J. Y. Yu, M. Chen*, and Z. M. Sheng. Enhanced pair plasma generation in the relativistic transparency regime. Physics of Plasmas 24 (2017) 103130

[26] X. L. Wang, Z. Y. Xu, W. Luo*, H. Y. Lu*, Z. C. Zhu, and X. Q. Yan. Transmutation prospect of long-lived nuclear waste induced by high-charge electron beam from laser plasma accelerator. Physics of Plasmas 24 (2017) 093105

[27] Wen Luo*, Hao-yang Lan, Yi Xu, and Dimiter. L. Balabanski. Implementation of the n-body Monte-Carlo event generator into the Geant4 toolkit for photonuclear studies. Nucl. Instr. and Meth. A 849 (2017) 49-54

[28] T. Yuan, M. Chen, J. Y. Yu, W. Y. Liu, W. Luo, S. M. Weng, and Z. M. Sheng. Target transverse size and laser polarization effects on pair production during ultrarelativistic-intense laser interaction with solid targets. Physics of Plasmas, 24 (2017) 063104

[29] Dario Del Sorbo, David R. Blackman, Remi Capdessus, Kristina Small, Cody Slade-Lowther, Wen Luo, Matthew J. Duff, Alexander P. L. Robinson, Paul McKenna, Zheng-Ming Sheng, John Pasley, and Christopher P. Ridgers. Ion acceleration with radiation pressure in quantum electrodynamic regimes. Proc. of SPIE, V10241 (2017) 102411I-1

[30] Yi Xu, Wen Luo, Dimiter Balabanski, Stephane Goriely, Catalin Matei, and Ovidiu Tesileanu. Photonuclear reactions in astrophysical p-process: Theoretical calculations and experiment simulation based on ELI-NP. EPJ Web of Conferences 146 (2017) 01015.

[31] Wen Luo*, Dimiter L. Balabanski, Dan Filipescu. A data-based photonuclear simulation algorithm for determining specific activity of medical radioisotopes. Nuclear Science and Techniques 27 (2016) 113

[32] X.-L. Wang, Z.-Y. Tan, W. Luo*, Z.-C. Zhu, X.-D. Wang and Y.-M. Song. Photo-transmutation of long-lived radionuclide 135Cs by laser-plasma driven electron source. Laser and Particle Beams 34 (2016) 433-439

[33] Wen Luo*, Production of medical radioisotope 64Cu by photoneutron reaction using ELI-NP γ-ray beam, Nuclear Science and Techniques 27 (2016) 96

[34] Li-Xiang Hu, Tong-Pu Yu*, Fu-Qiu Shao, Wen Luo*, and Yan Yin, A bright attosecond x-ray pulse train generation in a double-laser-driven cone target. Journal of Applied Physics 119 (2016) 243301

[35] Wen Luo*, Mariana Bobeica*, Ioana Gheorghe, Dan Filipescu, Dana Niculae, Dimiter L. Balabanski. Estimates for production of radioisotopes of medical interest at Extreme Light Infrastructure – Nuclear Physics facility. Applied Physics B 122 (2016) 8

[36] Wen Luo*, Mariana Bobeica, Dan Filipescu, Ioana Gheorghe, Dana Niculae, Dimiter L. Balabanski. Production of radioisotopes of medical interest by photonuclear reaction using ELI-NP γ-ray beam. Acta Physica Polonica B 47 (2016) 763-769

[37] Zhi-Chao Zhu, Wen Luo*, Zhuo-Cheng Li, Ying-Ming Song, Xiao-Dong Wang, Xing-Liu Wang, Gong-Tao Fan. Photo-transmutation of long-lived nuclear waste 135Cs by intense Compton γ-ray source. Annals of Nuclear Energy 89 (2016) 109-114

[38] M. Bobeica, D. Niculae, D. Balabanski, D. Filipescu, I. Gheorghe, D.G. Ghita, W. Luo. Radioisotope production for medical applications at ELI-NP. Romanian Reports in Physics, 68 (2016) S847–S883

[39] Wen Luo*, Yi-Bo Zhu, Hong-Bin Zhuo, Yan-Yun Ma, Ying-Ming Song, Zhi-Chao Zhu, Xiao-Dong Wang, Xing-Huo Li, I. C. E. Turcu, and Min Chen*, Dense electron-positron plasmas and gamma-ray bursts generation by counterpropagating quantum electrodynamics-strong laser interaction with solid targets, Physics of Plasmas 22 (2015) 063112

[40] WANG Xiao-Dong(王晓冬), ZHANG Jun-Wei(张俊伟), HU Bi-Tao(胡碧涛), YANG He-Run(杨贺润), DUAN Li-Min(段利敏), LU Chen-Gui(鲁辰桂), HU Rong-Jiang(胡荣江), ZHANG Chun-Hui(张春晖), ZHOU Jian-Rong(周健荣), YANG Lei(杨磊), AN Lv-Xing(安旅行), LUO Wen(罗文). Comparison of Experiment and Simulation of the triple GEM-Based Fast Neutron Detector. Chinese Phys. Lett. 32 (2015) 032901

[41] W. Luo, T. P. Yu, M. Chen, Y. M. Song, Z. C. Zhu*, Y. Y. Ma, and H. B. Zhuo. Generation of bright attosecond x-ray pulse trains via Thomson scattering from laser-plasma accelerators, Optics Express 22 (26) (2014) 32098-32106

[42] W. Luo*, H.B. Zhuo, Y.M. Song*, Z.C. Zhu, G.T. Fan, W. Xu. The nonlinear effect in relativistic Compton scattering for an intense circularly polarized laser, Physica Scripta 89 (2014) 075208

[43] Tong-Pu Yu, Li-Xiang Hu, Yan Yin, Fu-Qiu Shao, Hong-Bin Zhuo, Yan-Yun Ma, Xiao-Hu Yang, Wen Luo, and Alexander Pukhov. Bright tunable femtosecond x-ray emission from laser irradiated micro-droplets, Appl. Phys. Letts. 105 (2014) 114101

[44] W. Luo, H.B. Zhuo, Y.Y. Ma*, Y.M. Song*, Z.C. Zhu, T.P. Yu, and M.Y. Yu. Attosecond Thomson-scattering x-ray source driven by laser-based electron acceleration, Appl. Phys. Letts. 103 (2013) 174103

[45] W. Luo*, H.B. Zhuo, Y.Y. Ma, X.H. Yang, N. Zhao, and M.Y. Yu. Ultrashort-pulse MeV positron beam generation from intense Compton-scattering γ-ray source driven by laser wakefield acceleration, Laser and particle beams 31 (2013) 89-94

[46] LUO Wen*, XU Wang, ZHUO Hong-Bin, and MA Yan-Yun. Preliminary experimental and simulation studies of an energy-tunable quasi-monochromatic laser-Compton X/γ-ray source, Chinese Physics C 36 (2012) 769-776

[47] W. Luo*, W. Xu, Q. Y. Pan, Z. D. An, X. L. Cai, G. T. Fan, G. W. Fan, Y. J. Li, B. J. Xu, Z. Yan, L. F. Yang. A 4D Monte Carlo simulation Compton scattering code for the characterization of the future energy-tunable SLEGS, Nucl. Instr. and Meth. A 660 (2011) 108-115

[48] W. Luo, W. Xu*, Q. Y. Pan, X. Z. Cai, J. G. Chen, Y. Z. Chen, G. T. Fan，G. W. Fan, W. Guo, Y. J. Li, W. H. Liu, G. Q. Lin, Y. G. Ma, W. Q. Shen, X. C. Shi, B. J. Xu, J. Q. Xu, Y. Xu，H. O. Zhang, Z. Yan, L. F. Yang, and M. H. Zhao. A laser-Compton scattering prototype experiment at 100MeV Linac of Shanghai Institute of Applied Physics, Rev. of Sci. Instrum. 81 (2010) 013304

[49] W. Luo, W. Xu*, Q.Y. Pan, X.Z. Cai, Y.Z. Chen, G.T. Fan, G.W. Fan，Y.J. Li, W.H. Liu, G.Q. Lin, Y.G. Ma, W.Q. Shen, X.C. Shi，B.J. Xu, J.Q. Xu, Y. Xu, H.O. Zhang, Z. Yan, L.F. Yang，M.H. Zhao. X-ray generation from slanting laser-Compton scattering for future energy-tunable Shanghai Laser Electron Gamma Source, Applied Physics B 101 (2010) 761-771

[50] W. Luo, W.Xu*, Q.Y.Pan, G.T.Fan, G.W.Fan, Y.J.Li，B.J.Xu, Y.Xu, Z.Yan, L.F.Yang. An X-ray spectroscopy system and its application to the Laser-Compton scattering experiments, Nucl. Instr. and Meth. A 624 (2010) 141-147

[51] W. Luo, W. Xu*, Q.Y. Pan, G.T. Fan, G.W. Fan, Y.J. Li，G.Q. Lin, B.J. Xu, Y. Xu, Z. Yan, L.F. Yang. Laser Compton scattering experiments and the latest developments in construction of experimental facilities at SINAP, Proc. SPIE, V7385 (2009) 73852D

[52] Y.J. Li, W.M. Snow, W. Luo, Z.D. An, X.L. Cai, G.T. Fan, B.S. Huang, B.J. Xu, H.H. Xu, Z.Yan, W Xu. A simulation package to study the feasibility of an experiment to search for parity violation in  , Nucl. Instr. and Meth. A 726 (2013) 67

[53] X.L. Cai, W. Xu, W. Luo, L.F. Yang, G.T. Fan, B.J. Xu, Y.J. Li, Z.D. An, Z. Yan, Q.Y. Pan. Experimental study for measuring the decay branching ratio for nuclear excitation by electron transition in 189Os, Nuclear Physics A 874 (2012) 1-13

[54] Q.Y. Pan, W. Xu, W. Luo et al., A Future Laser Compton Scattering (LCS) γ-Ray Source: SLEGS at SSRF, Synchrotron Radiation News 22 (2009) 11

[55] L.F. Yang, W. Xu, Q.R. Zhang, W. Luo, Q.Y. Pan, X.L. Cai, G.T. Fan, Y.J. Li, B.J. Xu, Z. Yan, G.W. Fan and Z.D. An. Computational investigation of the interaction between hydrogen atoms and an intense circularly polarized laser field, Commun. Comput. Phys., 11 (2012) 756-774

[56] L.F. Yang, W. Xu, Q.R. Zhang, G.T. Fan, X.L. Cai, W. Luo, G.W. Fan, Y.J. Li, Q.Y. Pan, B.J. Xu, Z. Yan, and Z.D. An. Study of the ionization of hydrogen atoms in an intense circularly polarized laser field, Phys. Scr. T 144 (2011) 014054

[57] G.T. Fan, W. Xu, C.J. Lin, B. J. Xu, F. Jia, G. W. Fan, H.M. Jia, L.F. Yang, Y.J. Li, Q.Y. Pan, W. Luo, X.X. Xu, and Z.D. Wu, Systematic uncertainty studies for precision measurement on electric polarizabilities of 3He and 4He, Nuclear Physics A 834 (2010) 183C-185C

[58] FAN Guang-Wei, XU Wang, M. Fukuda, PAN Qiang-Yan, CAI Xiao-Lu, FAN Gong-Tao, LI Yong-Jiang, LUO Wen, XU Ben-Ji, YAN Zhe, YANG Li-Feng, Radius studies of 8Li and 8B using the optical-limit Glauber Model in conjunction with relativistic mean-field theory. Chin. Phys. C, 34 (2010) 1622

[59] LI Yong-Jiang, XU Wang, W. M. Snow, Cai Xiao-Lu, Fan Gong-Tao, Fan Guang-Wei, Luo Wen, Pan Qiang-Yan, Xu Ben-Ji, Yang Li-Feng and Yan Zhe. Measurement of PV asymmetry inand, Chin. Phys. C 34 (2010) 1465

[60] Xu Yi, Xu Wang, Ma Yu-Gang, Cai Xiang-Zhou, Chen Jin-Gen, Fan Gong-Tao, Fan Guang-Wei, Guo Wei, Luo Wen, Pan Qiang-Yan, Shen Wen-Qing, and Yang Li-Feng, Determination of the Stellar Reaction Rate for 12C(α, γ)16O: Using a New Expression with the Reaction Mechanism, Chin. Phys. B, 18 (2009) 1421-1407

[61] FAN Gong-Tao, XU Wang, MA Yu-Gang, LIN Cheng-Jian, PAN Qiang-Yan, XU Yi, CHEN Jin-Gen, GUO Wei, YANG Li-Feng, FAN Guang-Wei and LUO Wen. Measurement of electric polarizabilities of light nucleus (nucleons), Chin. Phys. C, 32 (2008) 166

【发明专利】

[1] 罗 文，艾念，宋英明. 一种基于激光尾场加速器的医用同位素产生方法及装置，专利公开号：CN104867529A（授权号：ZL 2015 1 0239684.5）

【招生要求】

课题组长年招聘博士后、博士生和硕士生，待遇优渥，欢迎来电垂询。

（1）良好的英语阅读、写作能力（CET6级通过者优先）；

（2）核科学与技术、核物理的基本功扎实，每周能保证工作60小时以上；

（3）勤于思考、善于交流；（冲破懒惰的迷雾，方能见成功的彩虹。）

（4）进组第一课：读懂英文文献，能够用母语文字流畅写出所读所思；

（5）有意提前转博者优先。

【联系方式】

电话：15211819698

邮箱：wenluo-ok@163.com