删除或更新信息,请邮件至freekaoyan#163.com(#换成@)

西北工业大学物理科学与技术学院导师教师师资介绍简介-李鹏

本站小编 Free考研考试/2021-06-29


相册


基本信息 The basic information
李鹏

物理科学与技术学院


博士研究生毕业

博士


副教授




光学工程


pengli@nwpu.edu.cn

-804




工作经历 Work Experience
2017.06—至今,西北工业大学理学院,副教授

2013.11—2017.05,西北工业大学理学院,讲师




教育教学 Education And Teaching
1、讲授本科生课程:《大学物理》、《信息光学》和研究生课程:《奇异光学导论》、《光场调控技术及应用》。
2、指导大学生创新创业训练计划4项。



招生信息 Admission Information
招收光学工程专业博士、硕士研究生,光学专业硕士研究生。


科学研究 Scientific Research
主要从事光场调控方面的前沿基础和应用研究,包括:1、新型空间结构光场的高效、灵活产生方法,空间结构光场的新颖传输动力学,基于空间结构光场的光镊、加工等应用研究。2、基于光学超表面的光场调控及功能器件设计、制备和表征。主持的科研项目:

7. 陕西省自然科学基础研究计划项目,2020.1-2021.12;

6. 国家自然科学基金重大科学研究计划培育项目,2019.01-2021.12;
5. 国家自然科学基金面上项目,2018.01-2021.12;
4. 国家自然科学基金青年项目,2015.01-2017.12;

3. 陕西省自然科学基金青年人才项目,2015.01-2017.01;
2. 中央高校科研业务费自由探索类项目,2014.05-2016.05;
1. 中央高校科研业务费布局规划类项目,2016.01-2016.12



学术成果 Academic Achievements
主要发表的文章:
[51] Peng Li*, Xuyue Guo, Jinzhan Zhong, Sheng Liu, Yi Zhang, Bingyan Wei, and Jianlin Zhao*, Optical vortex knots and links via holographic metasurfaces, Advances in Physics: X 6(1): ** (2020). 特邀综述

[50] 郭旭岳,李冰洁,樊鑫豪,钟进展,刘圣,魏冰妍,李鹏*,赵建林*,基于电介质超表面的光场复振幅调制及应用,红外与激光工程,49(9): ** (2020). 特邀综述
[49] Huachao Cheng, Peng Li*, Sheng Liu*, Lei Han, and Jianlin Zhao, Polarization-switchable nanoripples fabricated on a silicon surface by femtosecond-laser-assisted nanopatterning, Applied Optics 59: 7211-7216 (2020).
[48] Xinhao Fan, Peng Li*, Xuyue Guo, Bingjie Li, Yu Li, Sheng Liu, Yi Zhang, and Jianlin Zhao*, Axially Tailored Light Field by Means of a Dielectric Metalens, Physical Review Applied 14: 024035 (2020).
[47]Xuyue Guo, Peng Li*, Bingjie Li, Sheng Liu, Bingyan Wei, Wei Zhu, Jinzhan Zhong, Shuxia Qi, and Jianlin Zhao*, Visible-frequency broadband dielectric metahologram by random Fourier phase-only encoding, SCIENCE CHINA Physics, Mechanics & Astronomy 64(1): 214211 (2021).
[46] Xiang Zhang, Peng Li*, Sheng Liu, Bingyan Wei, Shuxia Qi, Xinhao Fan, Shouheng Wang, Yuan Zhang, and Jianlin Zhao*, Autofocusing of ring Airy beams embedded with off-axial vortex singularities, Optics Express 28(6): 7953-7960 (2020).
[45] Xuyue Guo, Jinzhan Zhong, Peng Li*, Bingyan Wei*, Sheng Liu, and Jianlin Zhao*, Creation of topological vortices using Pancharatnam-Berry phase liquid crystal holographic plates, Chinese Physics B, 29(4): 040305 (2020).
[44] Peng Li*, Xinhao Fan, Dongjing Wu, Sheng Liu, Yu Li, and Jianlin Zhao*, Self-accelerated optical activity in free space induced by Gouy phase, Photonics Research, 8(4): 475-481 (2020).
[43] Xuyue Guo, Peng Li,* Jinzhan Zhong, Sheng Liu, Bingyan Wei, Wei Zhu, Shuxia Qi, Huachao Cheng and Jianlin Zhao*, Tying Polarization-Switchable Optical Vortex Knots and Links via Holographic All-Dielectric Metasurfaces, Laser Photonics Reviews, 14: ** (2020).
[42] Sheng Liu, Jianlin Zhao, Peng Li, Bingyan Wei, and zhaojin guo, Tightly autofocusing beams: an effective enhancement of longitudinally polarized field, Optics Letters, 2020, 45(2): 575-578.
[41] Chaojie Ma, Jianglei Di, Jianzhen Dou, Peng Li, Fajun Xiao, Kaihui Liu, Xuedong Bai, and Jianlin Zhao, Structured light beams creating through a multimode fiber via virtual Fourier filtering based on digital optical phase conjugation, Applied Optics, 2020, 59(3): 701-705.
[40] Shuxia Qi, Sheng Liu, Peng Li, Lei Han, Jinzhan Zhong, Bingyan Wei, Huachao Cheng, Xuyue Guo, and Jianlin Zhao, A method for fast and robustly measuring the state of polarization of arbitrary light beams based on Pancharatnam-Berry phase, Journal Applied Physics, 2019, 126: 133105.
[39] Peng Li*, Xinhao Fan, Dongjing Wu, Xuyue Guo, Yu Li, Sheng Liu, and Jianlin Zhao, Shaping vector fields in three dimensions by random Fourier phase-only encoding, Optics Express, 2019 27(21): 30009-30019.
[38] Jinzhan Zhong, Shuxia Qi, Sheng Liu, Peng Li, Bingyan Wei, Xuyue Guo, Huachao Cheng, and Jianlin Zhao, Accurate and rapid measurement of optical vortex links and knots, Optics Letters, 2019, 44(15) 3849-3852.
[37] Bingyan Wei, Shuxia Qi, Sheng Liu, Peng Li, Yi Zhang, Lei Han, Jinzhan Zhong, Wei Hu, Yanqing Lu, and Jianlin Zhao, Auto-transition of vortex- to vector-Airy beams via liquid crystal q-Airy-plates, Optics Express, 2019, 27(13): 18848-18857
[36] 齐淑霞,刘圣*,李鹏,韩磊,程华超,吴东京,赵建林*,高效产生任意矢量光场的一种方法,物理学报, 2019, 68(2): 024201-1-7 [封面故事,《物理学报》2019年第68卷第 2期优秀论文]
[35]Yi Zhang, Peng Li*, Jinzhan Zhong, Shuxia Qi, Xuyue Guo, Dongjing Wu, Sheng Liu, and Jianlin Zhao, Measuring singularities of cylindrically structured light beams using a radial grating, Applied Physics Letters 2018 113: 221108.
[34] Peng Li*, Dongjing Wu, Sheng Liu, Yi Zhang, Xuyue Guo, Shuxia Qi, Yu Li, and Jianlin Zhao, Three-dimensional modulations on the states of polarization of light fields, Chinese Physcis B 2018 27: 114201-1-13 (Review)
[33] Chaojie Ma, Jianglei Di, Yi Zhang, Peng Li, Fajun Xiao, Kaihui Liu, Xuedong Bai, and Jianlin Zhao, Reconstruction of structured laser beams through a multimode fiber based on digital optical phase conjugation, Optics Letters201843: 3333-3336.
[31] Peng Li*,Dongjing Wu, Yi Zhang, Sheng Liu, Yu Li, Shuxia Qi, and Jianlin Zhao, Polarization oscillating beams constructed by copropagating optical frozen waves, Photonic Research2018 6:756 .
[30] Lei Han, Sheng Liu, Peng Li, Yi Zhang, Huachao Cheng, and Jianlin Zhao, Catalystlike effect of orbital angular momentum on the conversion of transverse to three-dimensional spin states within tightly radially polarized beams, Physical Review A2018 97:053802.
[29] Sheng Liu, Shuxia Qi, Yi Zhang, Peng Li, Dongjing Wu, Lei Han, and Jianlin Zhao, Highly effect generation of arbitrary vector beams with tunable polarization, phase, and amplitude, Photonic Research20186(4): 228-233.
[28] Peng Li*, Sheng Liu, Yi Zhang, Lei Han, Dongjing Wu, Huachao Cheng, Shuxia Qi, Xuyue Guo, and jianlin Zhao, Modulation of orbital angular momentum on the propagation dynamics of light fields, Frontier of Optoelectronics 2019, 12(1): 69–87.
[27]Yi Zhang, Xuyue Guo, Lei Han, Peng Li*, Sheng Liu, Huachao Cheng, and Jianlin Zhao, Gouy phase induced polarization transition of focused vector vortex beams, Optics Express 2017 25(21): 25725-25733.
[26] Huachao Cheng, Peng Li, Sheng Liu, Peng Chen, Lei Han, Yi Zhang, Wei Hu, and Jianlin Zhao, Vortex-controlled morphology conversion of microstructures on silicon induced by femtosecond vector vortex beams, Applied Physics Letters 2017 110: 141901.
[25] Chaojie Ma, Ying Li, Jiwei Zhang, Peng Li, Teli Xi, Jianglei Di, and Jianlin Zhao, Lateral shearing common-path digital holographic microscopy based on a slightly trapezoid Sagnac interferometer, Optics Express 2017 25(12):13659-13667.
[24] Yi Zhang, Peng Li*, Chaojie Ma, Sheng Liu, Huachao Cheng, Lei Han, and Jianlin Zhao, Efficient generation of vector beams by calibrating the phase response of a spatial light modulator, Applied Optics 2017 56(17):4956-4960.
[23] Sheng Liu, Lei Han, Peng Li, Yi Zhang, Huachao Cheng, and Jianlin Zhao, A method for simultaneously measuring polarization and phase of arbitrarily polarized beams based on Pancharatnam-Berry phase, Applied Physics Letters 2017 110:171112.
[22] Peng Li*, Yi Zhang, Sheng Liu, Huachao Cheng, Lei Han, Dongjing Wu, and Jianlin Zhao, Generation and self-healing of vector Bessel-Gauss beams with variant state of polarizations upon propagation, Optics Express 2017 5(6):5821-5831.
[21] Dong Mao, Tianxian Feng, Wending Zhang, Hua Lu, Yajun Jiang, Peng Li, Biqiang Jiang, Zhipei Sun, and Jianlin Zhao, Ultrafast all-fiber based cylindrical-vector beam laser, Applied Physics Letters 2017 110(2): 021107.
[20] Yi Zhang, Peng Li*, Sheng Liu, Lei Han, Huachao Cheng, and Jianlin Zhao, Manipulating spin-dependent splitting of vector abruptly autofocusing beam by encoding cosine-azimuthal variant phases, Optics Express 2016 24(25): 28409-28418.
[19] Wending Zhang, Ligang Huang, Keyan Wei, Peng Li, Biqiang Jiang, Dong Mao, Feng Gao, Ting Mei, Guoquan Zhang, Jianlin Zhao, High-order optical vortex generation in a few-mode fiber via cascaded acoustically driven vector mode conversion, Optics Letters 2016 41(21):5082-5085.
[18] Lei Han, Sheng Liu, Peng Li, Yi Zhang, Huachao Cheng, Xuetao Gan, and Jianlin Zhao, Managing focal fields of vector beams with multiple polarization singularities, Applied Optics 2016 55(32):9049-9053.
[17] Peng Li, Yi Zhang, Sheng Liu, Lei Han, Huachao Cheng, Fan Yu, and Jianlin Zhao, Quasi-Bessel beams with longitudinally varying polarization state generated by employing spectrum engineering, Optics Letters 2016 41(20):4811-4814.
[16] Yi Zhang, Peng Li, Sheng Liu, Lei Han, Huachao Cheng, and Jianlin Zhao, Optimized weak measurement for spatial spin-dependent shifts at Brewster angle, Applied Physics B 2016 122(7):1-6.
[15] Peng Li, Yi Zhang, Sheng Liu, Chaojie Ma, Lei Han, Huachao Cheng, and Jianlin Zhao, Generation of perfect vectorial vortex beams, Optics Letters 2016 41(10):2205-2208. ESI高被引论文)
[14] Wending Zhang, Ligang Huang, Keyan Wei, Peng Li, Biqiang Jiang, Dong Mao, Feng Gao, Ting Mei, Guoquan Zhang, and Jianlin Zhao, Cylindrical vector beam generation in fiber with mode selectivity and wavelength tunability over broadband by acoustic flexural wave, Optics Express 2016 24(10):10376-10384.
[13] Sheng Liu, Peng Li, Yi Zhang, Xuetao Gan, Meirong Wang, and Jianlin Zhao, Longitudinal spin separation of light and its performance in three-dimensionally controllable spin-dependent focal shift, Scientific Reports 2016 6:20774.
[12] Chenyang Zhao, Xuetao Gan, Peng Li, Liang Fang, Lei Han, Luqi Tu, and Jianlin Zhao, Design of Multicore Photonic Crystal Fibers to Generate Cylindrical Vector Beams, Journal of Lightwave Technology 2016 34(4):1206-1211.
[11] Yi Zhang, Peng Li, Sheng Liu, and Jianlin Zhao, Unveiling the photonic spin Hall effect of freely propagating fan-shaped cylindrical vector vortex beams, Optics Letters 2015 40(19): 4444-4447.
[10] Peng Li, Sheng Liu, Yi Zhang, Gaofeng Xie, and Jianlin Zhao, Experimental realization of focal field engineering of the azimuthally polarized beams modulated by multi-azimuthal masks, Journal of the Optical Society of America B 2015 32(9):1867-1872.
[9] Peng Li, Sheng Liu, Gaofeng Xie, Tao Peng, and Jianlin Zhao, Modulation mechanism of multi-azimuthal masks on the redistributions of focused azimuthally polarized beams, Optics Express 2015 23(6):7131-7139.
[8] Yu Li and Peng Li, Cylindrical vector beam generation in multiple elliptical core fiber with gold wire, Journal of Modern Optics 2015 62(1): 27-31.
[7] Peng Li and Jianlin Zhao, Polarization-dependent coupling in gold-filled dual-core photonic crystal fibers, Optics Express 2013 21(5):5232-5238.
[6] Sheng Liu, Meirong Wang, Peng Li, Peng Zhang and Jianlin Zhao, Abrupt polarization transition of vector autofocusing Airy beams, Optics Letters 2013 38(14):2416-2418.
[5] Wei Zhang, Sheng Liu, Peng Li, Xiangyang Jiao, and Jianlin Zhao, Controlling the polarization singularities of the focused azimuthally polarized beams, Optics Express 2013 21(1):974-983.
[4] Sheng Liu, Peng Li, Tao Peng, and Jianlin Zhao, Generation of arbitrary spatially variant polarization beams with a trapezoid Sagnac interferometer, Optics Express 2012 20(19):21715-21721.
[3] Xiangyang Jiao, Sheng Liu, Qian Wang, Xuetao Gan, Peng Li, and Jianlin Zhao, Redistributing energy flow and polarization of a focused azimuthally polarized beam with rotationally symmetric sector-shaped obstacles, Optics Letters 2012 37(6):1041-1043.
[2] Peng Li, Jianlin Zhao, Sheng Liu, Xietao Gan, Tao Peng, and Xiangyang Jiao, Dynamic behaviors of optical vortices in dual-core photonic crystal fibers, Optics Communications 2012 285:2355-2359.
[1] Peng Li, Jianlin Zhao, and Xiaojuan Zhang, Nonlinear coupling in triangular triple-core photonic crystal fibers, Optics Express 2010 18(26):26828-26833.





社会兼职 Social Appointments
中国光学学会全息与光信息处理专业委员会委员
西安市激光红外学会理事



English Version


相关话题/西北工业大学 物理科学与技术学院

闂傚倷娴囧畷鐢稿窗閹邦優娲箣閿旇棄鈧潡鏌ㄩ弮鍌涙珪闁绘繆鍩栭幈銊ヮ渻鐠囪弓澹曢梻浣侯攰濞呮洟骞戦崶褏鏆︽慨妞诲亾妞ゃ垺妫冨畷鍗炍旈崘銊ョ闂傚倸鍊风粈渚€宕ョ€n亶鐔嗘慨妞诲亾鐎规洦鍨堕、鏇㈠閵忊剝顔曢梻渚€娼ч¨鈧┑鈥虫喘閸┿垽寮崼鐔哄幍闂佺顫夐崝鏇㈡儍濞差亝鐓熼柣鏃堫棑缁夋椽鏌熼鑲╃Ш鐎规洘鍎奸ˇ鏌ユ煃闁垮鈷愮紒缁樼箞閸┾偓妞ゆ帒瀚悞娲煕閹邦垱纭堕柣顓燁殔閳规垿鍩ラ崱妤冧化缂佺虎鍘奸悥鐓庣暦閹达箑绠婚悗闈涙憸閹虫繈姊洪柅鐐茶嫰婢ф挳鏌曢崱妤€鈧潡骞婇悙鍝勎ㄩ柨鏇楀亾闁告柨鎳樺娲捶椤撶偘澹曟繝鈷€鍐弰鐎规洘鍨块獮妯尖偓娑櫭鎾剁磽娴e湱鈽夋い鎴濇缁辩偞绻濋崘褏绠氬銈嗗姂閸婃洟銆傛總鍛婄厱闁宠桨绶ら崝鐔镐繆閸欏濮嶇€规洖缍婇、鏇㈡晲閸曨剙鏀┑鐘垫暩閸嬫稑螞濞嗘挸绠扮紒瀣氨閺嬪秹鏌ㄩ悢鍝勑i柛瀣剁悼閹茬ǹ顓奸崶锝呬壕婵ḿ鍘ч獮姗€鏌ゅú顏冩喚妞ゃ垺鐟╅幃娆擃敆娴gǹ濮庨梻鍌欑閹测剝绗熷Δ鍛偍闁绘挸瀵掗崵鏇㈡煕瑜庨〃鍡涙偂閵夛妇绠鹃柟瀵稿剱濞堟ɑ銇勯敂濂告缂佺粯绻堥崺鈧い鎺戝閺佸倿鏌涢埄鍐噭闁挎稑绻樺娲礈閼碱剙甯ラ梺鍝ュУ閻楁粓寮鈧獮搴ㄦ嚍閵夈儰鍖栭梻浣哥秺閸嬪﹪宕滃☉姘辩煋闁绘垶眉缁诲棝鏌熺紒妯虹瑨妞ゅ浚鍋婇弻鐔割槹鎼粹寬锝夋倵閻㈤潧甯堕柍璇查叄楠炲鎮崨顖氱哎
2濠电姷鏁搁崑鐐哄垂閸洖绠扮紒瀣紩濞差亜惟闁冲搫顑囩粙蹇涙⒑閸︻厼鍔嬫い銊ユ瀹曠敻鍩€椤掑嫭鈷戦柛娑橈工婵箑霉濠婂懎浠辩€规洘妞介弫鎾绘偐瀹曞洤骞橀梻浣告惈椤︻垶鎮樺┑瀣辈婵炲棙鍨熼崑鎾舵喆閸曨剛锛橀梺绋挎捣閺佸鐛崘鈺冾浄閻庯綆鍋掑Λ鍐ㄢ攽閻愭潙鐏︾痪鏉跨Ч楠炲濡堕崱娆戭啎闂佺懓顕崑鐐核夐弽顓熷仯濞撴艾锕﹂幃鍏间繆閸欏濮囬柍璇查叄楠炲洭宕滄担铏瑰幀濠电姷顣藉Σ鍛村垂闂堟稈鏋嶉柨婵嗘媼濞尖晠鏌曟繛鐐珕闁绘挸绻橀弻娑㈠焺閸愨晝顦ㄧ紓浣疯兌婢ф濡甸崟顖f晝闁靛繆鏅涢崜閬嶆⒑閹稿海鈯曢柛鏃€鐟╅悰顔锯偓锝庝簴閺嬪酣鎮橀悙鏉戠亰濠㈣娲樼换娑欐綇閸撗勫仹闁哄浜為埀顒侇問閸犳牠鎮樺┑瀣厴闁硅揪绠戠壕鍏肩箾閹达綁鍝洪柣锝囨櫕缁辨挻鎷呮搴ょ獥闂佺ǹ顑呴敃銈夘敋閿濆鏁嗛柍褜鍓熼崺銏℃償閳锯偓閺嬪酣鏌熺€电ǹ顎屾俊鍙夋尦濮婄粯鎷呴崨濠傛殘闂佽崵鍠嗛崕鐢稿极閸愵喖围闁告粈绀侀弲鐘崇節閻㈤潧校婵ǜ鍔岄悾鍨瑹閳ь剟骞冨Δ鍛棃婵炴垶鐟ラ弳鍫ユ⒑缁洘娅呴柛濠冪摃閻忓姊虹紒姗嗘當闁绘鍋ゅ畷妤咁敆閸屾粎锛滈柡澶婄墑閸斿海绮婚幘缁樼厓闁芥ê顦藉Ο鈧梺璇″枙缁瑥鐣疯ぐ鎺濇晝闁靛牆绻掗惌锟�547闂傚倸鍊风粈浣革耿闁秲鈧倹绂掔€n亞锛涢梺鐟板⒔缁垶鍩涢幒妤佺厱闁哄洦顨嗗▍鍛存煟韫囷絼閭柡宀嬬到铻栭悗锝庡亜椤忥拷4濠电姷鏁搁崑鐐哄垂閸洖绠扮紒瀣紩濞差亝鏅查柛銉㈡櫇椤︻垶姊洪悷閭﹀殶闁稿鍠栭崺銏ゅ籍閳ь剟濡甸崟顔剧杸闁规儳顕ˇ閬嶆⒑缁嬫鍎愰柟鐟版搐閻e嘲顫滈埀顒勩€侀弮鍫濆耿婵°倕鍟獮鎰版⒒閸屾瑧顦﹂柛姘儏椤灝顫滈埀顒€鐣烽鐑嗘晝闁靛繈鍨哄▓楣冩⒑闂堟侗妾у┑鈥虫喘閸┿垽寮崼鐔哄幍闂佺顫夐崝鏇㈡儍濞差亝鐓熼柣鏃堟敱鐠愶紕绱掓潏銊ョ瑲鐎垫澘瀚埀顒婄秵娴滅偞绂掗悡搴樻斀闁绘劘娉涚槐锕傛煕濡ゅ嫭鐝ǎ鍥э功閳ь剚绋掕摫濠殿垱鎸抽幃宄扳枎濞嗘垵鍩屾繛瀛樼矒缁犳牠寮诲☉銏犵疀闁稿繐鎽滈弫鏍⒑缁洘娅旂紒缁樼箞瀵鈽夊⿰鍛澑闂佹寧绻傞幊搴綖閳哄懏鈷戦柛娑橈功閹虫洜绱掓潏銊︾妤犵偛绻橀幃鈺冩嫚閼碱剦鍟嬮梻浣告啞娓氭宕归幎鍓垮洭鍩¢崨顔规嫼闁荤偞绋堥埀顒€鍘栨竟鏇㈡⒒娴e憡璐¢弸顏嗙磼閵娿劌浜圭紒顕呭幗瀵板嫰骞囬鐘插箻闂備礁鎼€氼剛鎹㈤幒鏃囧С闁圭ǹ绨烘禍婊堟煛閸ヮ煁顏堟倶閼碱兘鍋撳▓鍨珮闁稿锕ら锝囨崉鐞涒剝鐎婚梺璇″瀻閸忎勘鍊濆缁樻媴閻熼偊鍤嬬紓浣割儐閸ㄨ儻妫熷銈嗘尪閸ㄥ綊鎮為崹顐犱簻闁圭儤鍩婇弨濠氭倵濮樼偓瀚�40缂傚倸鍊搁崐椋庣矆娓氣偓钘濇い鏍ㄧ矌閻挾鈧娲栧ú銊х不閺冨牊鐓欓柟顖嗗苯娈堕梺宕囩帛濮婂綊骞堥妸銉建闁逞屽墰濞戠敻骞栨担鍛婄€柣搴秵娴滃爼鎮㈤崱娑欏仯闁搞儻绲洪崑鎾诲礂閸涱収妫滅紓鍌氬€峰ù鍥ㄣ仈閹间焦鍋¢柍鍝勬噹閽冪喓鈧厜鍋撻柛鏇ㄥ亞椤撴椽姊洪幐搴g畵婵炶尙濞€瀹曟垿骞樼紒妯诲劒闁荤喐鐟ョ€氼剟宕㈣ぐ鎺撯拺闁告繂瀚婵嬫煕鎼淬垹鐏╂俊鍙夊姇楗即宕奸悢鍝勫妇闂備胶纭堕崜婵喢洪弽顐ュС缂侇偄瀵梻鍌氬€风欢姘缚瑜嶈灋闁哄啫鍊婚惌鍡椕归敐鍫殙闁荤喐瀚堥弮鍫濆窛妞ゆ棁顫夌€垫牠姊绘担鍛婂暈濞撴碍顨婂畷銏ゆ寠婢跺棙鐎洪悗鍏夊亾闁告洦鍓涢崢閬嶆⒑閸濆嫬鏆為柟绋垮⒔婢规洟骞愭惔娑楃盎闂侀潧楠忕槐鏇€€傞懠顒傜<闁哄啫鍊搁弸娑欍亜閵忊剝绀嬮柟顔规櫊椤㈡洟锝為鐑嗘婵犵數鍋犻幓顏嗙礊閳ь剚銇勯銏╂█闁诡噯绻濋崺鈧い鎺戝閳锋帡鏌涚仦鎹愬闁逞屽厸缁瑩銆佸▎鎰瘈闁告洦鍓﹀ḿ鐔兼⒑閸撴彃浜濇繛鍙夌墱缁崵绱掑Ο闀愮盎闂佽宕樺▔娑㈩敁瀹€鍕厸濞达絽澹婇崕蹇斻亜椤撯剝纭堕柟椋庡█閸ㄩ箖宕楅崨顖涘瘻闂傚倷绶氶埀顒傚仜閼活垶宕㈤幖浣圭厾闁告劘灏欓崺锝呪攽閿涘嫭鏆柟顔界懇瀵爼骞嬮鐐搭啌濠电姵顔栭崰妤呮晝閳哄懎绀傛繛鎴炵椤洟鏌ㄥ┑鍡樺仾鐟滅増甯楅弲鏌ユ煕閳╁啰鎳呴柣鎾冲€搁—鍐Χ閸愩劎浠剧紒鐐緲缁夊墎鍒掗埡鍛亜缁炬媽椴搁弲婵嬫⒑闂堟稓澧曟繛璇х畵楠炲棝鏁愭径瀣ф嫼闂佸湱枪濞寸兘鍩ユ径瀣ㄤ簻闁挎棁顕у顕€鏌涢埞鎯т壕婵$偑鍊栫敮鎺楁晝閵壯€鍋撳鐐28缂傚倸鍊搁崐椋庢閿熺姴纾诲鑸靛姦閺佸鎲搁弮鍫㈠祦闁告劦鍠栫粻濠氭煕閹捐尙绐旈柍鐟扮箲缁绘繈濮€閿濆棛銆愬Δ妤婁簼閹稿啿鐣峰┑瀣窛閻庢稒岣块崢閬嶆⒑閸濆嫬鏆婇柛瀣尵缁辨帞鈧綆鍋呭畷宀€鈧鍣崑濠囧箖娴犲鍨傛い鎰╁灩楠炴垿姊绘担鍛婃儓婵炶绠戦~婵嬪Ω閳哄倸浠梺瀹犳〃鐠佹彃危閸儲鐓欓柣鎰靛墯缂嶆垿鏌熼崗鍏煎€愰柡灞界Х椤т線鏌涢幘鍗炲妤犵偛绻橀弫鎾绘晸閿燂拷1130缂傚倸鍊搁崐椋庣矆娓氣偓钘濇い鏍ㄧ矌閻捇鏌涢幘鑼槮闁搞劍绻堥弻銊╂偄閸濆嫅銏㈢磼閳ь剟宕掗悙瀵稿幈濠电偞鍨堕敃顐﹀绩缂佹ḿ绠鹃柛顐g箘閻掓悂鏌$仦绋垮⒉鐎垫澘瀚埀顒婄秵娴滄粓锝為崶顒佲拺闂侇偆鍋涢懟顖涙櫠椤曗偓閺屾稒绻濋崟顒€娈岄柧鑽ゅ仱閺屾洟宕煎┑鍥ь槱婵犳鍨伴妶鎼佸蓟閿濆绠i柣蹇旀た娴滄繄绮嬪澶婇唶闁哄洨鍠撻崢鎼佹⒑閸涘﹥绀嬫繛浣冲洦鍊堕柨婵嗘缁♀偓闂侀€炲苯澧撮柛鈺佸瀹曟ḿ鎹勯妸褏鍘┑鐘殿暯濡插懘宕归棃娑氭殾闂傚牊渚楅崯鍛節闂堟稓澧㈢痪鎹愭闇夐柨婵嗘瑜版帒姹查柡鍐ㄧ墛閻撳啰鎲稿⿰鍫濈婵炴垶纰嶉鑺ユ叏濡法鍫柍褜鍓欓崐鍧楀箠閻愬搫唯闁挎洍鍋撻柛鏂挎嚇濮婅櫣鎲撮崟顐㈠Б闂佸摜鍠庡ḿ锟犲箖閿熺姴鍗抽柣鎰У閻╊垶骞冭瀹曞ジ顢楅埀顒勫矗閺囩姷纾藉ù锝勭矙閸濊櫣绱掔拠鎻掓殭瀹€锝堟硶閹风娀宕i崒婊冩灁缂佽鲸甯掕灒闁绘垵娲ㄩ悾杈ㄣ亜椤撯剝纭堕柟鐟板閹煎綊宕滈幇鍓佺?缂佽鲸甯¢崹楣冨礃瀹割喕绱旈柣搴㈩問閸n噣宕戦崟顖氱厺閹兼番鍔岀粻娑欍亜閹捐泛啸闁宠鐭傚缁樻媴閻熼偊鍤嬬紓浣割儐閸ㄥ墎缂撴禒瀣睄闁稿本绮屽畷銉╂煟鎼淬垻鈯曞畝锝呮健閸┿垽寮崼鐔哄幗濠殿喗锕╅崜姘讹綖濠曞啯绻濋悽闈涗沪婵炲吋鐟╁畷銉р偓锝庡枟閸ゅ苯螖閿濆懎鏆欑紒鐘靛枛閺岀喖骞嗛悧鍫闂備浇锟ラ崐婵嬪蓟濞戙垹唯闁瑰瓨绻傞弳銏°亜閺傛妲搁柍瑙勫灴閹晛霉鐎n偓绱氶梻渚€娼ч悧鍡涘箠鎼淬劌鍑犳繛鍡樻尰閳锋垿鎮归崶锝傚亾閾忣偆浜栭梻浣告啞閺屻劍顨ラ幖浣哥厺闁规崘顕х粻锝夋煥閺冨倻鎽傛慨濠傛健濮婃椽鏌呴悙鑼跺濠⒀屽櫍瀵偊宕奸妷锔惧幈闁诲繒鍋涚敮鍝勵潩鐠鸿櫣锛涢梺鐟板⒔缁垶寮查幖浣圭叆闁绘洖鍊圭€氾拷