im电竞

學生 教工 校友 考生及訪客

當前位置: im电竞 >> 學科與師資 >> 人才名錄 >> 正文

楊軍

所屬學院

信(xin)息工程(cheng)學院

導師類別

碩(shuo)導、博導

職 務

教授

科研方向

信息與通(tong)信工(gong)程、光學工(gong)程、光纖技術(shu)與系統

個人主頁

聯系方式

yangj@dotonboriramen.com

碩士和博士招生學院

博(bo)士招生學院: 信息工(gong)程學院

碩士招(zhao)生學院: 信息工程學院、物理(li)與光電工程學院

個人簡述

國(guo)(guo)家(jia)優青,教育部(bu)(bu)新世(shi)紀人才。中(zhong)國(guo)(guo)光(guang)(guang)(guang)學(xue)(xue)學(xue)(xue)會(hui)光(guang)(guang)(guang)電技(ji)(ji)(ji)術專委(wei)會(hui)委(wei)員、纖(xian)(xian)維光(guang)(guang)(guang)學(xue)(xue)與(yu)(yu)(yu)集成光(guang)(guang)(guang)學(xue)(xue)專委(wei)會(hui)委(wei)員,中(zhong)國(guo)(guo)光(guang)(guang)(guang)學(xue)(xue)工程學(xue)(xue)會(hui)光(guang)(guang)(guang)纖(xian)(xian)傳感專家(jia)工作(zuo)(zuo)委(wei)員會(hui)委(wei)員,中(zhong)國(guo)(guo)儀器(qi)儀表(biao)協會(hui)光(guang)(guang)(guang)機電技(ji)(ji)(ji)術與(yu)(yu)(yu)系(xi)統集成分會(hui)常務(wu)理(li)事。主要從事光(guang)(guang)(guang)纖(xian)(xian)傳感技(ji)(ji)(ji)術與(yu)(yu)(yu)系(xi)統、光(guang)(guang)(guang)學(xue)(xue)測(ce)試方(fang)法(fa)與(yu)(yu)(yu)光(guang)(guang)(guang)纖(xian)(xian)測(ce)量儀器(qi)研究,主持國(guo)(guo)家(jia)重大科學(xue)(xue)儀器(qi)設備開(kai)發專項(xiang)(課(ke)題)、科技(ji)(ji)(ji)部(bu)(bu)重點研發計劃(hua)(任務(wu))、國(guo)(guo)家(jia)自然(ran)基金科學(xue)(xue)基礎儀器(qi)專項(xiang)、科技(ji)(ji)(ji)部(bu)(bu)國(guo)(guo)際合作(zuo)(zuo)項(xiang)目(mu)(mu)等(deng)國(guo)(guo)家(jia)級(ji)項(xiang)目(mu)(mu)10多項(xiang);發表(biao)論文250余篇(pian),其(qi)中(zhong)被SCI收錄134篇(pian);授權發明(ming)專利(li)106項(xiang);合著學(xue)(xue)術專著2本、專著章節1個;獲(huo)(huo)黑龍江(jiang)省科技(ji)(ji)(ji)獎(jiang)自然(ran)科學(xue)(xue)類、技(ji)(ji)(ji)術發明(ming)類、科技(ji)(ji)(ji)進步類一(yi)等(deng)獎(jiang)各1項(xiang),獲(huo)(huo)教育部(bu)(bu)技(ji)(ji)(ji)術發明(ming)二等(deng)獎(jiang)1項(xiang),獲(huo)(huo)第十二屆黑龍江(jiang)省青年科技(ji)(ji)(ji)獎(jiang)。

教育背景

1995年(nian)09月~1999年(nian)07月,哈(ha)爾濱(bin)工程大學,光電子技術(shu),大學本(ben)科;

1999年09月(yue)~2002年03月(yue),哈爾濱工程(cheng)(cheng)大學,光學工程(cheng)(cheng),碩士研究生;

2001年(nian)09月~2005年(nian)06月,哈(ha)爾濱工程大學,機械設計及理(li)論,博士研究生。

工作經歷

2000年11月(yue)~2019年01月(yue),哈爾濱工(gong)程(cheng)大學(xue),理學(xue)院,助(zhu)教(jiao)(jiao)、講(jiang)師、副教(jiao)(jiao)授、教(jiao)(jiao)授、院長;

2003年01月(yue)~2004年01月(yue),香港(gang)理工大學(xue),機械(xie)工程學(xue)系(xi),訪問學(xue)者;

2011年(nian)09月(yue)~2019年(nian)01月(yue),纖維集成光學教(jiao)育部重點實驗室(shi)常務副主(zhu)任;

2019年02月~至(zhi)今,im電競,信息工程學院,教授。

學術兼職

中國光(guang)(guang)學(xue)(xue)(xue)學(xue)(xue)(xue)會(hui)光(guang)(guang)電(dian)(dian)技術(shu)專(zhuan)委(wei)會(hui)委(wei)員(yuan)(yuan)、纖(xian)維光(guang)(guang)學(xue)(xue)(xue)與集(ji)成光(guang)(guang)學(xue)(xue)(xue)專(zhuan)委(wei)會(hui)委(wei)員(yuan)(yuan),中國光(guang)(guang)學(xue)(xue)(xue)工(gong)程學(xue)(xue)(xue)會(hui)光(guang)(guang)纖(xian)傳感(gan)專(zhuan)家(jia)工(gong)作委(wei)員(yuan)(yuan)會(hui)委(wei)員(yuan)(yuan),中國儀器(qi)儀表協會(hui)光(guang)(guang)機電(dian)(dian)技術(shu)與系統集(ji)成分會(hui)常務理事(shi)。

主要榮譽

2018年(nian)11月,黑龍江省科技(ji)獎技(ji)術發(fa)明類一等(deng)獎,高精度光(guang)纖陀螺(luo)核心器件檢(jian)測(ce)與(yu)診斷(排名第(di)2);

2008年07月,黑龍江(jiang)省(sheng)科(ke)技獎自然(ran)科(ke)學(xue)類一等獎,光學(xue)干涉(she)儀多重嵌套理(li)論與(yu)方(fang)法(排名(ming)第2);

2014年08月,黑龍江省科技(ji)獎科技(ji)進步(bu)類一等獎,新一代(dai)高(gao)精度陀(tuo)螺儀及系(xi)統(tong)引進(排名(ming)第8);

2016年12月,教(jiao)育部技(ji)術發明二(er)等獎(jiang),海(hai)洋平臺光(guang)纖精密運動測量技(ji)術及應用(排名(ming)第3);

2016年(nian)05月,中國光學工程學會(hui)創新技術(shu)獎二等獎,光纖(xian)陀螺(luo)核心(xin)器件高精度(du)測試技術(shu)(排名第2);

2017年12月,黑(hei)龍江省高校科技獎一等(deng)獎(已推薦省一等(deng)獎),高精度光纖(xian)陀螺(luo)核(he)心器件檢測與診斷(排名第2);

2007年10月,黑龍江省優秀教學成果獎(jiang)二等獎(jiang),研究型專業基礎課程(cheng)教學改革(ge)的(de)探索與實踐(排名第2);

2006年05月,黑龍江(jiang)省第三(san)屆優秀碩士論(lun)文,低相干光纖應變(bian)測(ce)試(shi)系統及其在橋梁檢測(ce)中的(de)應用;

2015年5月,第十二(er)屆黑龍(long)江省青年科技獎。

主要科教成果

(1)苑立波(bo)、楊軍(jun)著(zhu),光纖白光干涉原理與應用(yong),北京: 科學出版(ban)社,2016

(2)苑立波、楊軍(jun)著,光纖白(bai)光干涉傳感技術,北京(jing): 北京(jing)航空航天大學出版社,2011

(3)苑立(li)波、楊軍著,第九(jiu)章,光纖白光干涉傳(chuan)感(gan)技術與應(ying)用,《光纖傳(chuan)感(gan)技術-新進展》,靳(jin)偉,阮(ruan)雙琛等(deng)著,北京: 科學(xue)出(chu)版(ban)社出(chu)版(ban), 2005

(4)苑立(li)波主(zhu)編,《光纖實驗技術》,哈爾濱: 哈爾濱工程大學出版社, 2004

(5)J. Yang; Z. Yang; H. Zhang; Z. Yu; Y. Yuan; H. Li; X. Zhang; F. Jiang; L. Yuan, “A Calibration Method for Large Dynamic Range White Light Interferometry Using High-Order Polarization Crosstalk,” JOURNAL OF LIGHTWAVE TECHNOLOGY, vol.36, no. 14, pp. 2834-2843 (2018)

(6)Z. Gao; X. Lu; Y. Zhang; S. Guo; Y. Liu; S. Sun; F. He; P. Yang; J. Ren;J. Yang*, “Transmission electron microscopic and optical spectroscopic studies of Ni2+/Yb3+/Er3+/Tm3+ doped dual-phase glass-ceramics,” JOURNAL OF THE AMERICAN CERAMIC SOCIETY, vol. 101, no. 7, pp. 2868-2876 (2018)

(7)Q. Liu; B. Zhang; Q. Chai; Y. Tian; Y. Liu; J. Ren; C. Liu; J. Zhang; E. Lewis; W. Zhang; S. Wang; Z. Liu;J. Yang*; L. Yuan, “Discriminating Twisting Direction by Polarization Maintaining Fiber Bragg Grating,” IEEE PHOTONICS TECHNOLOGY LETTERS, vol. 30, no. 7, pp. 654-657 (2018)

(8)Z. Gao; X. Lu; Y. Chu; S. Guo; L. Liu; Y. Liu; S. Sun; J. Ren;J. Yang*, “The distribution of rare earth ions in a gamma-Ga2O3 nanocrystal-silicate glass composite and its influence on the photoluminescence properties,” JOURNAL OF MATERIALS CHEMISTRY C, vol. 6, no. 12, pp. 2944-2950 (2018)

(9)H. Zhang;J. Yang*; Z. Yu; Z. Yang; C. Hou; Y. Yuan; Z. Liu; Y. Zhang; L. Yuan, “High-Accuracy PER Measurement of Integrated Optic Chip Using Orthogonal Alignment Method,” IEEE PHOTONICS TECHNOLOGY LETTERS, vol. 30, no. 8, pp. 732-735 (2018)

(10)H. Yu; H. Li; Y. Wang; L. Cu; S. Liu;J. Yang*, “Brief review on pulse laser propulsion,” OPTICS AND LASER TECHNOLOGY, vol. 100, pp. 57-74 (2018)

(11)Y. Tian; Q. Chai; T. Tan; B. Mu; Q. Liu; Y. Liu; J. Ren; J. Zhang; K. Oh; E. Lewis;J. Yang*; Z. Liu, “Directional Bending Sensor Based on a Dual Side-Hole Fiber Mach-Zehnder Interferometer,” vpl. 30, no. 4, pp. 375-378 (2018)

(12)Y. Tian; Q. Cha; Y. Meng; Y. Liu; J. Ren; S. Wang; J. Zhang; W. Zhang; E. Lewi;J. Yang*, “An Overlap-Splicing-Based Cavity in FBG Sensor for the Measurement of Strain and Temperature,” IEEE PHOTONICS TECHNOLOGY LETTERS, vol. 29, no. 2, pp. 235-238 (2017)

(13)Z. Yu;J. Yang*; Y. Yuan; F. Peng; H. Li; C. Hou; C. Hou; Z. Liu; L. Yuan, "High-Resolution Distributed Dispersion Characterization for Polarization Maintaining Fibers Based on a Closed-Loop Measurement Framework," IEEE Photonics Journal, vol.9, no.3, pp.1-8 (2017)

(14)S. Liu, Y. Ji, L. Cui, W. Sun,J. Yang*, and H. Li, “Humidity-insensitive temperature sensor based on a quartz capillary anti-resonant reflection optical waveguide,” Optics Express, vol. 25, no. 16, pp. 18929-18939 (2017)

(15)C. B. Hou, J. G. Wang,J. Yang*, H. Y. Li, Y. G. Yuan, F. Peng, and L. B. Yuan, “Improved path imbalance measurement of a fiber-optic interferometer based on frequency scanning interferometry,” Measurement Science and Technology, vol. 28, no. 8 (2017)

(16)H. Zhang,J. Yang*, C. Li, Z. Yu, Z. Yang, Y. Yuan, F. Peng, H. Li, C. Hou, J. Zhang, L. Yuan, J. Xu, C. Zhang, and Q. Yu, “Measurement error analysis for polarization extinction ratio of multifunctional integrated optic chips,” Applied Optics, vol. 56, no. 24, pp. 6873-6880 (2017)

(17)H. Yu; H. Li; L. Cui; S. Liu;J. Yang*, “Micro-gun based on laser pulse propulsion,” SCIENTIFIC REPORTS, vol. 7, 16299 (2017)

(18)Y. Yuan; D. Lu;J. Yang*; J. Wang; H. Li; Z. Yu; H. Zhang; F. Peng; Z. Liu; L. Yuan, “Range extension of the optical delay line in white light interferometry,” Applied Optics, vol. 56, no. 16, pp. 4598-4605 (2017)

(19)F. Peng; Y. Lv; H. Li; S. Tian; W. Chen;J. Yang*, “Sensitivity Prediction of Multiturn Fiber Coil-Based Fiber-Optic Flexural Disk Seismometer via Finite Element Method Analysis,” Journal of Lightwave Technology, vol. 35, no. 18, pp. 3870-3876 (2017)

(20)Y. Yuan; Y. Cheng;J. Yang*; H. Zhang; D. Lu; Y. Lv; F. Peng; H. Li; X. Zhang; F. Jiang, “Suppression of interference noise caused by Fresnel reflection in all-fiber white-light interferometer” APPLIED OPTICS, vol. 56, no. 31, pp. 8732-8737 (2017)

F. Peng,; C. Li;J. Yang*; C. Hou; H. Zhang; Z. Yu; Y. Yuan; H. Li; L. Yuan, “Symmetry evaluation for an interferometric fiber optic gyro coil utilizing a bidirectional distributed polarization measurement system,” Applied Optics, vol. 56, no. 20, pp. 5614-5619 (2017)

Yan Wang; Hanyang Li; Liyuan Zhao; Yongjun Liu; Shuangqiang Liu;Jun Yang*, "Tapered optical fiber waveguide coupling to whispering gallery modes of liquid crystal microdroplet for thermal sensing application," Opt. Express25, 918-926 (2017)

H. Y. Li; Y. Wang; H. Li; Y. D. Zhang;J. Yang*, “Dispersing upconversion nanocrystals in a single silicon microtube,” Scientific Reports, vol. 6, pp. 8 (2016)

C. Li;J. Yang*; Z. J. Yu; Y. G. Yuan; B. Wu; F. Peng; J. Z. Zhang; A. Zhou; Y. Zhang; Z. H. Liu;d L. B. Yuan, “Dynamic range beyond 100 dB for polarization mode coupling measurement based on white light interferometer,” Optics Express, vol. 24, no. 15, pp. 16247-16257 (2016)

C. Li;J. Yang*; Z. J. Yu; Y. G. Yuan; J. Z. Zhang; B. Wu; F. Peng; L. B. Yuan, “High-Order Interference Effect Introduced by Polarization Mode Coupling in Polarization-Maintaining Fiber and Its Identification,” Sensors, vol. 16, no. 3, pp. 11 (2016)

C. Li; Y. G. Yuan;J. Yang*; Z. J. Yu; F. Peng; B. Wu; Y. Zhang; L. B. Yuan; Y. Hua; P. Shu, “Inconsistency measurement between two branches of LiNbO3 integrated optic Y-junction,” Optics Communications, vol. 369, pp. 152-158 (2016)

Y. Zhao; B. Sun; Y. Liu; J. Ren; J. Zhang;J. Yang*; J. Canning; G. Peng; L. Yuan, “Polarization mode coupling and related effects in fiber Bragg grating inscribed in polarization maintaining fiber”. Optics express,vol. 24, no. 1, pp. 611-619 (2016)

Z. J. Yu;J. Yang*; Y. G. Yuan; C. Li; S. Liang; L. Hou; F. Peng; B. Wu; J. Z. Zhang; Z. H. Liu; L. B. Yuan, “Quasi-distributed birefringence dispersion measurement for polarization maintain device with high accuracy based on white light interferometry,” Optics Express, vol. 24, no. 2, pp. 1587-1597 (2016)

Y. Wang; H. Y. Li; L. Y. Zhao; Y. J. Liu; S. Q. Liu;J. Yang*, “Tunable whispering gallery modes lasing in dye-doped cholesteric liquid crystal microdroplets,” Applied Physics Letters, vol. 109, no. 23, pp. 5 (2016)

H. Y. Li; Y. Wang; J. Li; S. Q. Liu;J. Yang*, “Waveguiding performance of rhodamine 6G doped polymer nanowire,” Optik, vol. 127, no. 18, pp. 7268-7273 (2016)

C. Li;J. Yang*; Y. Yuan; A. Zhou; D. Yan; J. Chai; S. Liang; L. Hou; B. Wu; Peng, F (Peng, F.), “A differential delay line for optical coherence domain polarimetry,” OPTICS COMMUNICATIONS, vol. 26, no. 4,045102 (2015)

Y. Yuan; C. Li;J. Yang*; A. Zhou; S. Liang; Z. Yu; B. Wu; F. Peng; Y. Zhang; Z. Liu, “Simultaneous evaluation of two branches of a multifunctional integrated optic chip with an ultra-simple dual-channel configuration,” PHOTONICS RESEARCH, vol. 3, no. 4, pp. 115-118 (2015)

知(zhi)識產權:

楊(yang)軍、柴俊(jun)、苑勇貴、彭峰(feng)、吳冰、苑立波,一(yi)個(ge)大量程光(guang)學(xue)延遲裝置,授(shou)權號: ZL 201310739371.7,申請日(ri)期(qi): 2013.12.30,授(shou)權日(ri): 20171003

楊軍、苑勇貴、柴俊、彭峰(feng)、吳冰、苑立波,一種多功能(neng)鈮酸鋰集成(cheng)器件的光學性(xing)能(neng)測量方(fang)法,授(shou)權號: ZL 201310739315.3,申請日(ri)期: 2013.12.30;授(shou)權日(ri): 20160914

楊軍;戴明哲;柴俊(jun);李創;閆德凱;吳冰;彭峰;苑(yuan)勇(yong)貴(gui);苑(yuan)立波,一種Y波導(dao)雙(shuang)通道光學(xue)性(xing)能測量裝(zhuang)置(zhi),授權號: ZL 201410535211.5;

楊軍;戴(dai)明哲(zhe);李創;閆德凱;吳冰;彭峰;苑(yuan)勇貴;苑(yuan)立(li)波,一種Y波導的雙通道光學性能雙向(xiang)多對軸(zhou)角度自動(dong)測(ce)試裝置,專利號: ZL 201410535191.1;授權日(ri): 20170215

楊軍;柴(chai)俊;戴(dai)明(ming)哲;李創;閆德(de)凱;吳冰;彭峰;苑勇貴;苑立波(bo)(bo),一種(zhong)Y波(bo)(bo)導(dao)器(qi)件的(de)雙通道光學性能同時測(ce)試裝置及其Y波(bo)(bo)導(dao)偏(pian)振(zhen)串音(yin)識(shi)別(bie)與(yu)處理方法,專利號(hao): ZL 201410535202.6,授(shou)權日: 20170524

彭(peng)峰、侯璐、楊軍、苑(yuan)勇貴、吳冰、苑(yuan)立波(bo)(bo),一種(zhong)改進的(de)生(sheng)成載(zai)波(bo)(bo)相(xiang)位PGC解調方法,發(fa)明(ming)專利,申(shen)請(qing)號: CN201510293443.9,申(shen)請(qing)日(ri): 20150505;授(shou)權日(ri): 20171128

楊軍、侯璐、彭峰、苑勇貴、吳(wu)冰、苑立波,一種改進的生成(cheng)載波相位PGC解調方(fang)法,申請號: CN201510293444.3,申請日: 20150602;授權日: 20171121

楊軍、梁帥(shuai)、李創、喻張俊、苑(yuan)(yuan)勇(yong)貴、吳冰、彭峰(feng)、苑(yuan)(yuan)立波,一種光學偏振器件分(fen)布式偏振串擾測(ce)量的噪(zao)聲抑制裝置(zhi)與抑制方法,申(shen)請(qing)號: CN 201510212810.8,申(shen)請(qing)日: 20150430;授權日: 20171121

楊軍(jun),苑(yuan)勇貴,彭峰,苑(yuan)立波.一(yi)種提(ti)高光(guang)學(xue)器件(jian)偏(pian)振(zhen)串(chuan)擾測量性能的裝(zhuang)置及方法,專利號: 201210379407.0.申請(qing)日(ri): 20121009;授權日(ri): 20141203;

楊軍苑勇貴(gui)彭(peng)峰柴俊苑立波,一(yi)種光(guang)學器件偏振串擾測(ce)量(liang)的全光(guang)纖測(ce)試(shi)裝置,專利號: 201210379406.6.申(shen)請日: 20121009;授權日: 20150225

楊軍,彭(peng)峰(feng),吳冰,苑(yuan)勇貴,苑(yuan)立波.一(yi)種超(chao)短基線差(cha)分盤式光(guang)纖(xian)位移(yi)傳感器(qi)及光(guang)纖(xian)應變(bian)儀,中(zhong)國發明專利(li),ZL 201210381977.3.申(shen)請日: 20121010;授(shou)權(quan)公告日: 20150408

楊(yang)軍(jun),彭峰,吳(wu)冰,苑勇貴(gui),苑立波.順變柱體結構的推挽式(shi)光纖(xian)位移傳感器及光纖(xian)應變儀, 201210381908.2.申請日: 20121010;授權公告日: 201505027

楊軍,彭(peng)峰,吳冰(bing),苑(yuan)勇貴,苑(yuan)立波.單頻偏振激光(guang)干涉(she)儀(yi)(yi)及光(guang)程倍增的激光(guang)應變儀(yi)(yi), 201210381909.7.申請日: 20121010;授權公告日: 201505027

楊軍、李創、苑勇貴(gui)、彭(peng)峰、吳冰、苑立波,一種光學相干域偏振(zhen)測量裝置,專利號: ZL201310739314.9.申請(qing)日(ri): 20131230;授權日(ri): 20151209

楊軍;吳冰;苑(yuan)勇貴;閆(yan)德凱;彭峰(feng);苑(yuan)立(li)波,帶有光(guang)程掃描(miao)位(wei)置和速(su)度校(xiao)正的光(guang)學相(xiang)干(gan)域偏振測量裝置,申請(qing)號: CN201410120591.6,申請(qing)日: 20140328;授權日: 20160504

楊軍;柴(chai)俊;苑勇貴;吳(wu)冰;彭峰;苑立波,一種可抑制干(gan)涉(she)噪聲的光學(xue)相(xiang)干(gan)偏振測量裝置,申請號: CN201410120901.4,申請日: 20140328;授權日: 20160504

楊(yang)軍;李(li)創;苑勇貴(gui);彭峰;吳冰;苑立波(bo),一種(zhong)利(li)用光(guang)源抑制偏振(zhen)串音(yin)測量噪(zao)聲(sheng)的裝置及檢測方法,申請(qing)號: CN201410120580.8,申請(qing)日: 20140328;授權(quan)日: 20160629

楊軍;吳(wu)冰;苑勇貴;閆(yan)德凱;彭峰;苑立(li)波,一(yi)種帶有光程掃描在線校正的光學相干域偏振測量(liang)裝置,申請號: CN201410120888.2,申請日: 20140328;授權日: 20160629

楊軍;苑勇貴;彭峰(feng);吳冰;苑立波(bo),光學相干(gan)偏(pian)振(zhen)測量的偏(pian)振(zhen)衰落抑制裝置與抑制方(fang)法(fa),申請(qing)號: CN201410105302.5,申請(qing)日(ri)(ri): 20140321;授(shou)權日(ri)(ri): 20160629

楊軍;苑勇貴;吳冰;彭峰(feng);苑立波,白光干涉傳感陣列的偏(pian)振衰(shuai)落抑制裝置及抑制方法(fa),申(shen)請(qing)號(hao): CN201410105304.4,申(shen)請(qing)日: 20140321;授權日: 20160

科研項目

1,高精度(du)光(guang)纖陀(tuo)螺檢測與診斷(duan)儀的開(kai)發與應用(2013YQ040815),科技(ji)部國家重大儀器開(kai)發專項,2013.10~2017.9,6113萬元,技(ji)術負責人,國家級

1.1,光纖陀(tuo)螺關鍵器件的(de)高精(jing)度分(fen)布參量測試技術研究(2013YQ04081501),科(ke)技部國家重大(da)儀器開(kai)發專項-任務,2013.10~2016.9,1097.78萬元,任務負(fu)責人,國家級

2,超高光(guang)纖某某某某某標定與校準技術(JZX2017-1092/Y348),軍委(wei)裝(zhuang)備發(fa)展(zhan)部全軍共(gong)用(yong)信息系(xi)統裝(zhuang)備預研,2017.9~2020.12,300萬元,項目負責人,國家(jia)級(ji)

3,光纖白(bai)光干涉測試技術(shu)(61422505),國家自然科學優秀青(qing)年基(ji)金,2015.1~2017.12,100萬(wan)元(yuan),項目負責人,國家級(ji)

4,超高(gao)分(fen)辨(bian)率(lv)、超大(da)動態范圍光纖傳感(gan)通用測試(shi)系統(61227013),國家(jia)(jia)自然科(ke)學基金科(ke)學儀器基礎研究專款,2013.1~2016.12,290萬元,項目負責(ze)人,國家(jia)(jia)級(ji)

5,超(chao)高(gao)靈敏度、寬頻、大動態范(fan)圍光纖地震計(ji)及(ji)其(qi)關鍵技術研(yan)究(ZD201205),黑龍(long)江省自然科學基金重點項目(mu),2013.1-2014.12,20萬元(yuan),項目(mu)負責人,省部級

6,高精度、寬頻、大動態范圍光纖地震監測(ce)方法(fa)與(yu)關鍵技術研究(NCET-12-0623),教育部新世紀(ji)優秀人(ren)才(cai)支持計劃,2013.1-2015.12,50萬元,項目負責人(ren),國家級

7,低成(cheng)本分布式(shi)溫室氣(qi)體監測技(ji)術研(yan)究(2010DFA22770),科技(ji)部(bu)國際科技(ji)合作(zuo)專項子課題,2011.1-2013.12,126萬元,項目(mu)負責人,國家(jia)級

8,基(ji)于單芯—環形波導光纖(xian)的消逝(shi)場(chang)傳感機(ji)理(li)研究(60807032),國家自然(ran)科(ke)學(xue)基(ji)金,2009.1-2011.12,24萬元,項目(mu)負責人,國家級

9,面向微流傳感的(de)光子帶隙光纖關鍵技術及器件(61635007),國家自(zi)然科學基金,2017.1-2021.12,280萬元,第一負責人,國家級(ji)

10,自支撐薄膜厚度(du)計量(liang)標準(zhun)裝置(2016YFF0200704),國(guo)家重點研發計劃(hua),2016.6-2020.11,230萬(wan)元,第一(yi)負責(ze)人,國(guo)家級

我的團隊

先進(jin)光子(zi)技術研究團隊

im电竞_im电竞官网_im电竞平台