張淳民

空間光學、成像光譜技術、光學遙感探測技術、大氣光學、光電圖像處理、先進光學儀器。 ^[1] 

國家基金委第十二屆、十三屆專家組成員，享受國務院政府特殊津貼專家，國家科技獎評審專家，教育部科技獎評審專家，陝西省三秦人才，陝西省優秀博士指導教師，西安交通大學教學名師。中國光學學會理事，中國光學工程學會理事，中國光學學會空間光學專業委員會顧問，全國高校光學研究會副理事長，全國高校電磁學研究會副理事長，陝西省光學學會副理事長，西北農林科技大學特聘客座教授，美國光學學會（OSA）會員。德國《光學》（Optik）編委，《現代物理》副主編，《航天返回與遙感》編委，《光學學報》原常務編委、《光子學報》原編委，《光學快報》（Optics Letters）,《光學快訊》（Optics Express）,《應用光學》（Applied Optics）,《中國物理B》（Chinese Physics B），《物理學報》等特邀評閲人，被世界名人錄《who's who in the world》收錄。 ^{[1]  [11]} 

先後主持國家863計劃2項、國家重大專項2項、國家自然科學基金重點項目2項、國防基礎科研項目1項、國家自然科學基金6項；省自然科學基金重點項目1項、省科技攻關項目2項、市工業攻關項目1項。

近年來在國際著名學術期刊《大氣化學和物理學》(Atmospheric Chemistry and Physics)，《光學快訊》(Optics Express)，《光學快報》(Optics Letters),《IEEE地球科學與遙感彙刊》(IEEE Transactions on Geoscience and Remote Sensing)，《定量光譜學與輻射傳輸雜誌》(Journal of Quantitative Spectroscopy and Radiative Transfer)，《工程光學與激光》( Optics and Lasers in Engineering)等，發表有關空間光學、成像光譜偏振技術以及大氣遙感探測和反演理論研究、實驗研究和工程研製論文共252篇，其中SCI收錄186篇，EI收錄45篇，國際會議特邀報告8篇，出版專著4部 [《成像光譜偏振技術》（國家科學技術學術著作出版基金資助）；《干涉成像光譜技術》；《衞星遙感被動探測高層大氣風場》；《光學》。（均由科學出版社出版）]，獲授權發明專利22項。 ^[1] 

主持國家級教改項目5項，省、校級教改項目19項；主編出版《物理學》、《大學物理》、《物理學概論》 “十一五”國家級規劃教材等8部；獲國家、省(部)、校級獎25項。

近年來，在空間光學、干涉成像光譜技術、大氣光學、對地觀測、空間探測和多光譜遙感等方面，在國際上取得了多方面的創新：首次提出了基於Savart偏光鏡橫向剪切的偏振干涉成像光譜技術，自行設計研製了超小型穩態偏振干涉成像光譜儀星載、機載和實驗樣機三台。這是一種集時間、空間調製主要優點於一體的時空混合模式的信息獲取遙感儀器，可同時獲取目標的二維空間圖像、一維光譜及偏振信息，具有成像儀、光譜儀和偏光儀的三重功能。這是我國學者自行設計、研製成功的國際上首台基於Savart偏光鏡的偏振干涉成像光譜儀。

提出了高分辨率成像、光譜、偏振多維信息一體化獲取技術的新原理、新方法、新技術，研製了實驗裝置和原理樣機，最先在國際上實現了目標成像、光譜、偏振多維信息一體化靜態、實時、同時獲取。

在高層大氣風場探測方面，提出了全方位、多方向被動遙感探測的創新性原理、方案和探測模式，研製了風成像干涉儀，改變了目前國際上美、加、法三國科學家提出的風場干涉儀技術的一維探測方式，極大的提高了探測效率。首次開展了對更接近實際的佛克脱輪廓譜線大氣風場探測研究；提出了時空聯合調製靜態風場探測新原理。

建立、發展了高分衞星CO2 高光譜矢量輻射傳輸模式和遙感反演系統GF_VRTM-V1.0和全球反演業務算法系統GF_VRTM-V2.0，為CO2 、O3和微量氣體的星載探測奠定了理論基礎，提供了技術支撐，在國家重大工程中得到了應用。

上述研究對發展我國具有自主知識產權的空間探測、對地觀測以及對陸地表層、大氣、海洋探測具有重大的科學意義。在航空航天、空間探測、國防、國家安全、地球生態環境和人類生存空間、航天器的發射和運行、資源普查、環境保護、地球物理、天文物理研究等方面都有着重要的應用價值和廣闊的應用前景。 ^[1] 

2023年 ^[13] 

[1] Zeyu Chen, Christoph Krafft,Chunmin Zhang*, Tanveer Ahmed Shaik, Jürgen Popp. Polarization Raman microscopebased on channeled spectropolarimetry[J]. Optics and Lasers in Engineering,2023, 168: 107666. (SCI)

[2] Chunmin Zhang*, Yujiao Zhang,Yifan He. Influence of the four-quadrant fixed mirror on the temperature andwind velocity inversion for the near-infrared static Mars wind imaginginterferometer[C]//Earth and Space: From Infrared to Terahertz (ESIT 2022).SPIE, 2023, 12505: 554-566. (EI)

[3] Ke Ke, Chunmin Zhang*, Qian Tang,Yifan He, Baoli Yao. Single Underwater Image Restoration Based on colorcorrection and Optimized Transmission Map Estimation[J]. Measurement Scienceand Technology, 2023, 34. (SCI)

[4] Ning Chang, Shiping Guo*, ChunminZhang, Yanqiang Wang, Feng Tang. Imaging Characteristics of Disturbance FlowField Surrounding a Hypersonic Target[J]. Applied Sciences, 2023, 13(15), 8827.(SCI)

[5] Ke Ke, Chunmin Zhang*, YujiaoZhang, Ning Chang, Feng Tang. Fusion-based restoration method for unevenillumination images in deep sea[C]//2023, 12550:282-288.(EI)

[6] Chunmin Zhang*, Tingyu Yu,Yanqiang Wang, Biyun Zhang, Zhengyi Chen, Zeyu Chen, Ward William,Kristoffersen, Samuel. Static Wind Imaging Michelson Interferometer for theMeasurement of Stratospheric Wind Field[J]. Optics Express. 31.10.1364/OE.496550. (SCI)

[7] Chunmin Zhang*, Yanqiang Wang,Biyun Zhang,Tingyu Yan,Zeyu Chen, Zhengyi Chen. Novel Compact Polarized MartianWind Imaging Interferometer[J]. Remote Sensing, 2023, 15: 4881. (SCI)

2022年

[1] Zhengyi Chen, Chunmin Zhang*, Tingkui Mu, Yifan He.Tensorial Multiview Subspace Clustering for Polarimetric HyperspectralImages[J]. IEEE Transactions on Geoscience and Remote Sensing, 2022, 60: 1–1.(SCI)

[2] Chunmin Zhang, Yifan He*, Qian Tang, Zhengyi Chen, TingkuiMu. Infrared Small Target Detection via Interpatch Correlation Enhancement andJoint Local Visual Saliency Prior[J]. IEEE Transactions on Geoscience andRemote Sensing, 2021, PP: 1–1. (SCI)

[3] Zeyu Chen, Chunmin Zhang*, Tingkui Mu, Yanqiang Wang,Yifan He, Tingyu Yan, Zhengyi Chen. Coded aperture full-stokes imagingspectropolarimeter[J]. Optics and Laser Technology, 2022, 150: 107946. (SCI)

[4] Ke Ke, Chunmin Zhang*, Qian Tang, Yifan He, Baoli Yao.Single underwater image restoration based on descattering and colorcorrection[J]. Optik, 2022, 259: 169009. (SCI)

[5] Yanqiang Wang , Chunmin Zhang*,Zeyu Chen, Yongqiang Sun, Pengju Zhang. Measurement of visibility and phasesteps of a static wind imaging interferometer assisted by deep learning[J].Applied optics, 2022(13):61. (SCI)

2021年

[1] Yifan He, Chunmin Zhang*, TingkuiMu, Tingyu Yan,Yanqiang Wang, Zeyu Chen. Multiscale Local Gray Dynamic RangeMethod for Infrared Small Target Detection[J]. IEEE Geoscience and RemoteSensing Letters, 2021,18(10): 1846-1850. (SCI)

[2] Ke Ke, Chunmin Zhang*, Miao Wu,Yongqiang Sun. Improved defogging algorithm for sea surface images based ondark channel prior theory[J]. Optical Engineering, 2021,60(3):033104. (SCI)

[3] Chunmin Zhang, Yifan He*, Qian Tang, Zhengyi Chen, TingkuiMu. Infrared Small Target Detection via Interpatch Correlation Enhancement andJoint Local Visual Saliency Prior[J]. IEEE Transactions on Geoscience andRemote Sensing, 2021, PP: 1–1. (SCI)

[4] Yifan He, Chunmin Zhang*, Tingkui Mu. Polarized imageenhancement based on biological vision[C]//2021: 73.(EI)

[5] Chunmin Zhang*, Tingyu Yan, Chenlin Jia, William E. Ward.Tempo-spatially modulated imaging spectropolarimetry based on polarizationmodulation array[J]. Journal of Quantitative Spectroscopy and RadiativeTransfer, 2021,261:107448. (SCI)

[6] Chunmin Zhang*, Xiao Du, Tingyu Yan, Guixiu Li. Researchon Instrument Visibility of Ozone Wind Imaging Interferometer[J]. RemoteSensing, 2021,13(6):1062. (SCI)

[7] Piao Rong, Chunmin Zhang*, William E. Ward, Huachun Zhu,Haishan Dai. Compensation optimization for a static Mars wind imaging Michelsoninterferometer[J]. Optics and Lasers in Engineering, 2021,142:106589. (SCI)

[8] Chunmin Zhang*, Yixuan Wang, Tingyu Yan, Yifan He,Yongqiang Sun. Signal-to-noise ratio of a near-infrared static wind imagingMichelson interferometer [J]. Applied Optics, 2021, 60(16): 4848-4855. (SCI)

[9] Chunmin Zhang*, Guixiu Li, Tingyu Yan, Xiao Du, YanqiangWang. The optical throughput of near-infrared static wind imaginginterferometer[J]. Optics Communications, 2021, 498: 127227. (SCI)

[10] Yanqiang Wang, Chunmin Zhang*, Piao Rong, Tingyu Yan, ZeyuChen. Influence of the tilted arm glass on the temperature and wind velocityinversion for a static wind imaging interferometer[J] OpticsCommunications, 2021, 495: 127118. (SCI)

[11] Yongqiang Sun, Chunmin Zhang*,Pengju Zhang, Feng Han. Research on inversion algorithm of arbitraryphase-shifting wind imaging interferometer[C]//Fourth International Conferenceon Photonics and Optical Engineering. SPIE, 2021, 11761: 275-282. (EI)

2020年

[1] Miao Wu, Chunmin Zhang*, Zuzu Jiaoand Guoqing Zhang. Improvement of dehazing algorithm based on dark channelpriori theory[J]. Optik, 2020,206:164174. (SCI)

[2] Chunmin Zhang*, Tingyu Yan,Tingkui Mu, Yifan He. Theoretical Model and Design of a Novel StaticPolarization Wind Imaging Interferometer (nspwii)[J]. ISPRS Annals of thePhotogrammetry, Remote Sensing and Spatial Information Sciences, 2020, 1:383-388. (SCI)

[3] Piao Rong, Christian von Savigny,Chunmin Zhang*, Christoph G. Hoffmann, Michael J. Response of middleatmospheric temperature to the 27 d solar cycle: an analysis of 13 years ofmicrowave limb sounder data[J]. Atmospheric Chemistry and Physics, 2020, 20(3):1737–1755. (SCI)

[4] Yongqiang Sun, Chunmin Zhang*,Pengju Zhang, Tingkui Mu, Tingyu Yan, Yanqiang Wang. Calibration of FrequencyShift System of Wind Imaging Interferometer[J]. Photogrammetric Engineering& Remote Sensing, 2020, 86(12):753-760. (SCI)

[5] Piao Rong, Chunmin Zhang, DongdongLiu, Lu Zhang, Xingying Zhang, Peng Zhang, Zhanhui Huyan. Sensitivity analysisof an XCO2 retrieval algorithm for high-resolution short-wave infraredspectra[J]. Optik, 2020, 209: 164502. (SCI)

[6] Naicheng Quan*, Chunmin Zhang*,Tingkui Mu, Caiyin You. Spectroscopic Mueller matrix polarimeter based onspectro-temporal modulation[J], Optics Express, 2020, 28, 37758-37772. (SCI)

[7] Naicheng Quan*, Chunmin Zhang*,Tingkui Mu, Siyuan Li, Caiyin You. Estimation variance ofdual-rotating-retarder Mueller matrix polarimeter in the presence of Gaussianthermal noise and Poisson shot noise[J], Journal of Optics, 2020,2,1421-1434.(SCI)

[8] Yanqiang Wang, Chunmin Zhang*,Tingkui Mu, Tingyu Yan, Zhengyi Chen, Zeyu Chen, Yifan He. Design and analysisof a Fourier transform imaging spectropolarimetry based on polarizationmodulation array (PMAFTISP) [J]. Optics Communications, 2020, 460: 125101.(SCI)

[9] Feng Han, Tingkui Mu*, DonghaoBao, Abudusalamu Tuniyazi, Qiuxia Li, Hang Gong, Zeyu Chen and Chunmin Zhang. Iterativereconstruction for genera linear imaging polarimetry without peolarimetriccalibration[J]. Optics letters, 2020,45(1):57. (SCI)

2019年

[1] Tingkui Mu*, Feng Han, DonghaoBao, and Chunmin Zhang. Compact snapshot optically replicating and remappingimaging spectrometer (ORRIS) using a focal plane continuous variable filter[J]. Optics Letters, 2019, 44(5): 1281. (SCI)

[2] Yanqiang Wang, Chunmin Zhang,Yifan He. Sparse aperture masking technique on measurement of stardiameter[C]//2019: 120. (EI)

[3] Xun Xue, Jianke Zhao, ChunminZhang, Shangkuo Liu, E Kewei, Kun Li, Zhengfeng Wan, Jing Li, Jie Zhang, DandanHu, Yi Guo. Thermal vacuum optical performance test system for space lasercommunication terminal[C]//2019: 90. (EI)

[4] Zeyu Chen, Chunmin Zhang *.Efficient sparse subspace clustering for polarized hyperspectralimages[C]//2019: 68. (EI)

[5] Naicheng Quan*, Caiyin You,Chunmin Zhang*, Tingkui Mu. Channeled spectropolarimetry with increasedbandwidth and aliasing reduction[J]. Optik, 2019, 181:562-570. (SCI)

[6] Zeyu Chen, Chunmin Zhang*, TingkuiMu, Tingyu Yan, Donghao Bao, Zhengyi Chen and Yifan He. Coded aperture snapshotlinear-Stokes imaging spectropolarimeter[J]. Optics Communications, 2019,450:72-77. (SCI)

[7] Zhengyi Chen, Chunmin Zhang*,Tingkui Mu, Tingyu Yan, Zeyu Chen, Yanqiang Wang. An EfficientRepresentation-Based Subspace Clustering Framework for Polarized HyperspectralImages[J]. Remote Sensing, 2019, 11(13):1513. (SCI)

[8] Tingkui Mu*, Donghao Bao, FengHan, Yuanyuan Sun, Zeyu chen, Qian Tang, Chunmin Zhang. Optimized design,calibration, and validation of an achromatic snapshot full-Stokes imagingpolarimeter[J]. Optics Express, 2019, 27(16): 23009-23028. (SCI)

[9] Runze Li, Tong Peng, Meiling Zhou,Xianghua Yu, Peng Gao, Junwei Min, Yanlong Yang, Ming Lei, Baoli Yao, ChunminZhang, Tong Ye. Rapid wide-field imaging through scattering media by digitalholographic wavefront correction[J]. Appl Opt. 2019, 58(11): 2845-2853. (SCI)

[10] Tingyu Yan, Chunmin Zhang*. Aliasing reduction forchanneled spectropolarimetry based on super-resolution technique[C]//2019:66.(EI)

2018年

[1] Naicheng Quan*, Chunmin Zhang,Tingkui Mu. Full linearly Stokes channeled polarimetric technique with lowreconstruction errors[J]. Optik,2018,164. (SCI)

[2] Naicheng Quan*, Chunmin Zhang,Tingkui Mu, and Qiwei Li. Channeled polarimetric technique for the measurementof spectral dependence of linearly Stokes parameters[J]. Infrared Physics &Technology, 2018, 90:95-100. (SCI)

[3] Tingkui Mu*, Donghao Bao, Chunmin Zhang, Zeyu Chen andJionghui Song. Optimal reference polarization states for the calibration ofgeneral Stokes polarimeters in the presence of noise[J]. Optics Communications,2018, 418:120-128. (SCI)

[4] Naicheng Quan*, Chunmin Zhang, Tingkui Mu. Optimalconfiguration of partial Mueller matrix polarimeter for measuring theellipsometric parameters in the presence of Poisson shot noise and Gaussiannoise[J]. Photonics and Nanostructures - Fundamentals and Applications, 2018,29:30- 35. (SCI)

[5] Tingyu Yan, Chunmin Zhang*, Jirui Zhang, Naicheng Quan andCuncun Tong. High resolution channeled imaging spectropolarimetry based onliquid crystal variable retarder[J]. Optics Express, 2018, 26(8):10382. (SCI)

[6] Qian Tang, Lixin Guo. Dispersionnonlinearity analysis of immersed gratings[J]. Applied Optics, 2018, 57(7):1548-1553.(SCI)

2017年

[1] Jirui Zhang, Chunmin Zhang*,Tingyu Yan, Zeyu Chen. Spectrum reconstruction for five-channel autocorrelationfunction of spectropolarimeter[J]. Optik - International Journal for Light andElectron Optics, 2017, 157:1259-1266. (SCI)

[2] Naicheng Quan, Chunmin Zhang*, Tingkui Mu. Modified Savartpolariscope with wide field of view and achromatic lateral displacement[J].Optics Communications, 2017, 382: 392-398. (SCI)

[3] Naicheng Quan, Chunmin Zhang*, Tingyu Yan,Qiwei Li, RuiruGao, Tingkui Mu. Linear stokes imaging spectropolarimeterbased on the static polarization interference imaging spectrometer[J].Optics Communications, 2017, 391:30-36. (SCI)

[4] Qiwei Li, Chunmin Zhang*, Tingyu Yan, Yutong Wei, andCuncun Tong.Wavelength calibration of an imagingspectrometer based on Savart interferometer[J]. Optics Communications,2017, 398 27-30. (SCI)

[5] Naicheng Quan, Chunmin Zhang*, Tingyu Yan, Qiwei Li, RuiruGao, Tingkui Mu. Full Stokes spectralpolarimeter based on thepolarization-difference interference imaging spectrometer[C]//SecondInternational Conference on Photonics and Optical Engineering. SPIE, 2017,10256: 115-126. (EI)

[6] Qiwei Li, Chunmin Zhang*, Tingyu Yan. Experimentalresearch for relative radiometric calibration of imaging spectrometer based onSavart plates[C]//2017: 102564M. (EI)

[7] Zhang Rui, William E.Ward, Zhang Chunmin*. O2 night glow snapshots of the 1.27μm emission at lowlatitudes on Mars with a static field-widened Michelson interferometer[J].Journal of Quantitative Spectroscopy and Radiative Transfer, 2017, 203:565-571. (SCI)

[8] Shaojun Lu, William E. Ward, Jeffery A. Lagille, SamuelKaare Kristoffersen, Chunmin Zhang. Wind velocitymeasurement with wide angle divided mirror Michelson wind imaginginterferometer[J], 2017,11: 544-550. (SCI)

[9] Piao Rong, Chunmin Zhang*, Tingyu Yan, Dong Liu, YanfenLi. Simulation of the fixed optical path difference of near infrared windimaging interferometer[C]//Second International Conference on Photonics andOptical Engineering. SPIE, 2017, 10256: 883-890. (EI)

[10] Chunmin Zhang*, Dongdong Liu, Piao Rong, Yanfen Li.Selection of greenhouse gases monitoring instrument channels for CO2 in nearinfrared band[J]. Optik, 2017, 144: 597-602. (SCI)

[11] Dongdong Liu, Chunmin Zhang*, Yanfen Li, Piao Rong. Research on the influence of the vertical temperatureprofile on the retrieval of CO2 concentration[C]//Second InternationalConference on Photonics and Optical Engineering. SPIE, 2017, 10256: 934-941.(EI)

[12] Meng Gao, Chunmin Zhang*, Yue-Ming Zhou. Research on theeffect of Aerosol on the Retrieval of hyperspectral XCO2[C]//SecondInternational Conference on Photonics and Optical Engineering. SPIE, 2017,10256: 998-1004. (EI)

[13] Guilong Gao, Kai He, Jinshou Tian, Chunmin Zhang, JunZhang, Tao Wang, SHaorong Chen, Hui Jia, Fengfang Yuan, Lingliang Liang, XinYan, Shaohui Li, Chao Wang, Fei Yin. Ultrafast all-optical solid-state framingcamera with picosecond temporal resolution[J]. Optics Express, 2017. 25(8):8721-8729. (SCI)

[14] Guilong Gao, Jinshou Tian, Tao Wang, Kai He, ChunminZhang, Jun Zhang, Shaorong Chen, Hui Jia, Fengfang Yuan, Lingliang Liang, XinYan, Shaohui Li, Chao Wang, Fei Yin. Ultrafast all-optical imaging techniqueusing low-temperature grown GaAs/AlxGa1-xAs multiple-quantum-wellsemiconductor[J]. Physics Letters A, 2017:S0375960117308381. (SCI)

2016年

[1] Chunmin Zhang*, Qiwei Li, Tingyu Yan, Tingkui Mu andYutong Wei.High throughput static channeled interferenceimaging spectropolarimeter based on a Savart polariscope[J]. OpticsExpress, 2016. 24(20) 23314. (SCI)

[2] Qiwei Li, Chunmin Zhang*, Tingyu Yan, Yutong Wei.Polarization state demodulation of channeled imagingspectropolarimeter by phase rearrangement calibration method[J]. OpticsCommunications, 2016. 379: 54–63. (SCI)

[3] 魏宇童, 劉尚闊, 顏廷昱, 李祺偉. 偏振型干涉成像光譜儀譜線位置定標方法的研究. 物理學報[J], 2016. 65(8): 080601. (SCI)

[4] Naicheng Quan, Chunmin Zhang*, Tingkui Mu.Principle and analysis of a birefringent beam splitter[J].Optik,2016, 127(16): 6735-6741. (SCI)

[5] 權乃承, 張淳民*, 穆廷魁. 基於孔徑分割與視場分割的通道型成像光譜偏振技術[J]. 物理學報, 2016, 65(8): 080703. (SCI)

[6] Yanfen Li, Chunmin Zhang*, Dongdong Liu, Jie Chen, andPiaoRong. Comparison between the ESFT and LBL Simulation with Enhanced SCIATRANof Orbital CO2 Retrieval for High-Resolution Satellite[J]. Optik, 2016, 127(2):628-633. (SCI)

[7] Yanfen Li, Chunmin Zhang*, Dongdong Liu, Jie Chen, andPiaoRong, Xingying Zhang, Shupeng Wang. CO2 retrieval model and analysis inshort-wave infrared spectrum[J]. Optik, 2016, 127(10): 4422-4425. (SCI)

[8] Yanfen Li, Chunmin Zhang*, Dongdong Liu, Jie Chen, andPiaoRong, Xingying Zhang, Shupeng Wang. XCO2 retrieval algorithm in short-waveinfrared spectrum and validation with TCCON data[J]. Optik, 2016, 127(16):6479-6483. (SCI)

[9] Yanfen Li, Chunmin Zhang*, HaiShan Dai, XingYing Zhang,and Peng Zhang. XCO2 satellite retrieval experiments in short-wave and infraredspectra with SCIATRAN model for Sahara Desert[J]. Science China Earth Sciences,2016, 59: 2252-2259. (SCI)

[10] Dongdong Liu, Chunmin Zhang*, Yanfen Li, Piao Rong. Theinfluence of temperature on the simulated high resolution spectra of enhancedSCIATRAN model in near infrared band[J]. Optik, 2016, 127(18): 7292-7299. (SCI)

[11] Dongdong Liu, Chunmin Zhang*, Yanfen Li, Xingying Zhang,Shupeng Wang, Lu Zhang, Peng Zhang, Jie Chen, Piao Rong. The retrievalalgorithm for a satellite-borne CO2-sounder: preliminary results in nearinfrared band[J]. Optik, 2016, 127 (20): 8613-8620. (SCI)

[12] Naicheng Quan, Chunmin Zhang*,Tingkui Mu. Static Fourier transform imaging spectropolarimeter based onquarter-wave plate array[J]. Optik, 2016, 127(20): 9763-9774.(SCI) 2015年

[1] Tingkui Mu, Chunmin Zhang*, Qiwei Li, Rongguang Liang.Error analysis of single-snapshot full-Stokes division-of-aperture imagingpolarimeters[J]. Optics Express, 2015, 23: 10822–10835. (SCI)

[2] Tingkui Mu, Chunmin Zhang*, Qiwei Li, Rongguang Liang.Achromatization of waveplate for broadband polarimetric system[J]. OpticsLetters, 2015, 40: 2485–2488. (SCI)

[3] Tingkui Mu, Chunmin Zhang*, Rongguang Liang. Demonstrationof a snapshot full-Stokes division-of-aperture imaging polarimeter usingWollaston prism array[J]. Journal of Optics A: Pure and Applied Optics,2015,17(125708)1-8. (SCI)

[4] 陳潔, 張淳民, 王鼎益, 張興贏, 王舒鵬, 慄彥芬, 劉鼕鼕, 榮飄. 地表反照率對短波紅外探測大氣CO2的影響[J]. 物理學報, 2015, 64(23): 239201. (SCI)

[5] Piao Rong, Chunmin Zhang, Dingyi Wang, Dongdong Liu, YanfenLi, Jie Chen. Simulation of the Atmospheric CO2 measurements at Fuling with theInversion Model Results[C]//The International Conference on Photonics andOptical Engineering (icPOE 2014). SPIE, 2015, 9449: 85-92. (EI)

[6] Yanfen Li, Chunmin Zhang*, Dingyi Wang, Jie Chen, DongdongLiu, Piao Rong. Comparison between the ESFT method and LBL method of CO2retrieval for high-resolution satellite[C]//The International Conference onPhotonics and Optical Engineering (icPOE 2014). SPIE, 2015, 9449: 150-158. (EI)

[7] 李祺偉, 張淳民*, 魏宇童, 陳清穎. 偏振型干涉成像光譜儀中Savart偏光鏡通光孔徑的研究[J]. 物理學報, 2015, 64(22): 224206. (SCI)

[8] Chuang Zhang, Chunmin Zhang. Aswitchable femtosecond and picosecond soliton fiber laser mode-locked by carbonnanotubes[J]. Laser Physics, 2015, 25(7): 075104.(SCI)

2014年

[1] Qizhi Cao, Chunmin Zhang*, Jing Zhang, Yongqiang Kang. Achromaticsnapshot imaging polarimeter using modified Savart polariscopes and hybrid(refractive-diffractive) lenses[J]. Optik 2014, 125(13) : 3380–3383. (SCI)

[2] Pingyuan Gao , Chunmin Zhang *, JIngjing Ai , Gang Li.Metamaterial with negative refraction over wide frequency band[J]. MaterialsResearch Innovations, 2014, 18: 346–350. (SCI)

[3] Tingkui Mu, Chunmin Zhang, Qiwei Li, Lin Zhang, YutongWei, Qingying Chen. Achromatic Savart polariscope: choice of materials[J].Optics Express, 2014, 22(5): 5043-5051. (SCI)

[4] Tingkui Mu, Chunmin Zhang, Qiwei Li, Yutong Wei, QingyingChen, Chenling Jia.The polarization-difference interference imagingspectrometer-I. concept, principle, and operation[J]. Acta Phys. Sin., 2014,63(11): 110704. (SCI)

[5] Tingkui Mu, Chunmin Zhang, Qiwei Li, Yutong Wei, QingyingChen, Chenling Jia. The polarization-difference interference imagingspectrometer-Ⅱ. optical design and analysis[J]. Acta Phys. Sin., 2014, 63(11):110705. (SCI)

[6] Invited Speaker: Novel Imaging Polarization Spectroscopy,XXIV. International Conference On Raman Spectroscopy. Chunmin Zhang.

[7] Dingyi Wang, Chunmin Zhang, Lin Qin, Lu Zhang, XianghongWang, Hong-qun Li, Fu Yang, Gang Chen, Shupeng Wang, Xingying Zhang, Peng Zhang.Hyper-spectral observations of greenhouse gases in Three Gorges ReservoirRegion, China[J]. 40th COSPAR Scientific Assembly, 2014, 40: A1. 1-4-14.

[8] Chunmin Zhang. Imaging, Spectrum, Polarizationmultidimensional integration information acquisition technology [C]// TheInternational Conference on Photonics and Optical Engineering and the AnnualWest China Photonics Conference.

[9] 張淳民. 空間光學與光譜成像干涉儀[C]//2014年全國高等學校光學教學研究會會議.

2013年

[1] Chunmin Zhang*, Wenyi Ren, Tingkui Mu, Lili Fu, ChenlingJia. Empirical mode decomposition based background removal and de-noising inpolarization interference imaging spectrometer [J]. Optics Express, 2013,21(3): 2592-2605. (SCI)

[2] Tingkui Mu, Chunmin Zhang*,Chenling Jia, Wenyi Ren, LinZhang, Qiwei Li. Alignment and retardance errors, and compensation of achanneled spectropolarimeter[J]. Optics Communications, 2013, 294: 88–95. (SCI)

[3] Tingkui Mu, Chunmin Zhang*. Models for polarizationdetection with the modified polarization interference imaging spectrometer[J].Optik - International Journal for Light and Electron Optics, 2013, 124:661–665. (SCI)

[4] Jinchan Wang, Chunmin Zhang*, Lin Zhang, Wenyi Ren, XiaokeSun. Complete optical throughput analysis of the static polarization windimaging interferometer [J]. Applied Optics, 2013, 52(11): 2248-2256. (SCI)

[5] Chunmin Zhang*, Lin Lu, Jingjing Ai. Modulation depth ofstatic four-phase-divided wind imaging interferometer[J]. Applied Optics, 2013,52(18): 4242-4248. (SCI)

[6] Lin Zhang, Chunmin Zhang*, Wenyi Ren, Tingkui Mu, JinchanWang. Feasibility analysis of an achromatic quarter wave plate in a staticpolarizing wind imaging interferometer[J]. Measurement Science and Technology,2013, 24(7): 075801. (SCI)

[7] Lin Zhang, Chunmin Zhang*, Wenyi Ren, Jinchan Wang. Effectof assembly error of polarization array on a Polarizing Atmospheric MichelsonInterferometer[C]// International Symposium on Photoelectronic Detection andImaging 2013: Imaging Spectrometer Technologies and Applications. SPIE, 2013,8910: 466-475.(EI)

[8] Baohui Zhu, Chunmin Zhang*, Wenfeng Zeng, Boru Gao,Xiaohua Jian , Wenyi Ren. Error analysisof the moving mirror tilting in Michelson wind imaging interferometer[J].Optik, 2013, 124(16): 2436-2442. (SCI)

[9] Jinchan Wang, Chunmin Zhang*, Wenyi Ren, Lin Zhang,Junqiang Mao. The influences of the wavelength bandwidth on the measured windvelocity and temperature in the static polarization wind imaginginterferometer[J]. Optik, 2013, 124(24): 6932-6935. (SCI)

[10] Yan Qu, Chunmin Zhang*, Dingyi Wang, Pengbo Tian, QingmiaoWu. Comparison of atmospheric CO2 observed by GOSAT and two ground stations inChina[J]. International Journal of Remote Sensing, 2013, 34(11): 3938-3946.(SCI)

[11] Wenyi Ren, Chunmin Zhang*, Chenling Jia, Tingkui Mu, QiweiLi, Lin Zhang. Precise spectrum reconstruction of the Fourier transformsimaging spectrometer based on polarization beam splitters[J]. Optics Letters,2013, 38(8): 1295-1297. (SCI)

[12] Jingjing Ai, Chunmin Zhang*, Peng Gao and Chenling Jia.Signal-to-noise ratio of the spatially modulated imaging spectrometer based onmodified Sagnac interferometer[J]. Optics Communications, 2013, 298–299: 46–53.(SCI)

[13] Chunmin Zhang*, Qizhi Cao, Xiaohua Jian, Wenyi Ren, JingZhang. Image fusion of tempo-spatially modulated polarization interferenceimaging spectrometer [J]. Optics Communications, 2013, 297 (15): 12-19. (SCI)

[14] Jingjing Ai, Chunmin Zhang* , Peng Gao.Optical pathdifference and lateral displacement of Sagnac lateral shearinginterferometer[J]. Journal of Modern Optics, 2013, 60. (SCI)

[15] Jingjing Ai*, Chunmin Zhang , Peng Gao. Modulationtransfer function of a modified spatially modulated imaging interferometer[J].Journal of Modern Optics, 2013, 60. (SCI)

[16] Lin Zhang, Chunmin Zhang*, Xiaohua Jian, Wenyi Ren.Multispectral color image composition of temporally and spatially mixedmodulated polarization interference imaging spectrometer[J]. Optik, 2013, 124:5837–5839. (SCI)

[17] Jingjing Ai, Chunmin Zhang*, Chenling Jia, Peng Gao.Optical throughput of the tempo-spatially modulated polarization interferenceimaging spectrometer[J]. Optik, 2013, 124: 5751–5755. (SCI)

[18] Yongqiang Kang, Chunmin Zhang*, ChunhuaXue, Qizhi Cao, Wenyi Ren. Wannier stark ladder in one-dimensional photoniccrystal coupled microcavity containing indefinite metamaterials[J]. Journal ofOptics, 2013, 42. (SCI)

[19] Peng Gao, Chunmin Zhang*, JIngjingAi, Yongqiang Kang, Gang Li. Multiple frequency bands of square split resonantrings and metal wire metamaterial[J]. Applied optics, 2013, 52(31): 7523-7523. (SCI)

[20] Peng Gao, Chunmin Zhang*, JingjingAi, Gang Li, Yongqiang Kang. Measurement of negative refraction index fromsimulative results and experimental data by a new metamaterial sample[J].Physica A: Statistical Mechanics and its Applications, 2013, 392(24):6506-6511. (SCI)

[21] Yongqiang Kang, Chunmin Zhang*,Peng Gao, Wenyi Ren. Electromagnetic resonance tunneling in a single-negativesandwich structure[J]. Journal of Modern Optics, 2013 (ahead-of-print): 1-6. (SCI)

[22] Peng Gao , Chunmin Zhang*, LuZhang, Jingjing Ai. Metamaterial composed of different cells exhibiting anegative refraction property over multiple frequency bands[J]. Journal ofModern Optics, 2013, 60(11): 925-931. (SCI)

[23] Yongqiang Kang, Chunmin Zhang*.Resonant modes in photonic multiple quantum well structures withsingle-negative materials[J]. Optik, 2013, 124: 5430–5433. (SCI)

[24] Wenyi Ren, Chunmin Zhang, Tingkui Mu, Lili Fu, andChenling Jia. Empiricalmode decomposition based background removal and de-noising in polarizationinterference imaging spectrometer: erratum[J]. Optics express, 2013, 21(8):10207-10207. (SCI)

[25] Peng Gao, Chunmin Zhang, Zongwei Jia, and Yongqiang Kang. Multiple frequency bands of squaresplit resonant rings and metal wire metamaterial: erratum[J]. Applied Optics,2013, 52(31): 7523-7523. (SCI)

[26] Peng Gao, Chunmin Zhang.Double-passband refraction of metamaterials[J]. Optik-International Journal forLight and Electron Optics, 2013, 124(17): 3053-3055.(SCI)

2012年

[1] Tingkui Mu, Chunmin Zhang*, Chenling Jia, Wenyi Ren. Static hyperspectral imaging polarimeter forfull linear Stokes parameters[J]. Optics express, 2012, 20: 18194–201.(SCI)

[2] Qizhi Cao, Chunmin Zhang*, Edward DeHoog. Snapshot imagingpolarimeter using modified Savart polariscopes[J]. Applied optics, 2012, 51:5791–6. (SCI)

[3] 祝寶輝,張淳民*,簡小華,曾文鋒.時空混合調製型偏振干涉成像光譜儀的全視場偏振信息探測研究[J]. 物理學報, 2012, 61(9): 090701(1-8). (SCI)

[4] Yongqiang Kang , Chunmin Zhang*, Tingkui Mu, Peng Ga.Resonant modes and inter-well coupling in photonic double quantum wellstructures with single-negative materials[J]. Optics Communications, 2012, 285:1-4. (SCI)

[5] Peng Gao, Chunmin Zhang. The Resonant Frequency ofTriangle Split Resonant Ring[J]. Optical Engineering, 2012, 21(01): 018001.(SCI)

[6] Chunmin Zhang*, Haishan Dai, Tingkui Mu, Yan Qu. Effectand Suppression of Secondary Fringes in FATWindII [J]. Applied Optics, 2012,51(18):4186-4195. (SCI)

[7] Chunmin Zhang *, Ying Li. Influence of the tiltingreflection mirror on the temperature and wind velocity retrieved by apolarizing atmospheric Michelson interferometer[J]. Applied Optics, 2012,51(27):6508-6517. (SCI)

[8] Chunmin Zhang*, Yingying Zhu, Haiying Wu. Completethroughput analysis of the static four-phase-divided wind imaginginterferometer[J]. Optical Engineering, 2012, 51(4): 046202-046202. (SCI)

[9] Chunmin Zhang*, Baohui Zhu, Xiaohua Jian, Wenyi Ren. NovelPolarization Atmosphere Michelson Interfermeter[J], Optical Engineering, 2012,51(10): 101714-101714. (SCI)

[10] 張宣妮, 張淳民. 靜態偏振風成像干涉儀光傳輸特性和光通量改善[J]. 物理學報, 2012, 61(10): 220-230. (SCI)

[11] 代海山,張淳民*,穆廷魁. 寬場、消色差、温度補償風成像干涉儀中次級條紋研究[J].物理學報, 2012, 61(22): 224201. (SCI)

[12] Tingkui Mu, Chunmin Zhang*, Wenyi Ren and Chenling Jia.Static polarization-difference interference imaging spectrometer[J]. OpticsLetters, 2012, 37: 3507–9. (SCI)

[13] Wenyi Ren, Chunmin Zhang*, Tingkui Mu, Haishan Dai.Spectrum reconstruction based on the constrained optimal linear inversemethods[J]. Optics Letters, 2012, 37: 2580–2. (SCI)

[14] Chunmin Zhang*, Jingjing Ai, Peng Gao. Optical throughputof the Sagnac interferometer with a modified large optical path difference[J].Applied Optics, 2012, 51: 2693–700. (SCI)

[15] Yingying Zhu, Chunmin Zhang*, Baochang Zhao. Design andanalysis of a novel noncollinear acousto-optic tunable filter[J]. OpticsCommunications, 2012, 285: 2332–2334. (SCI)

[16] Chunmin Zhang*, Haishan Dai,Tingkui Mu, Yan Qu. Effect and suppression of secondary fringes inFATWindII[J]. Applied Optics, 2012, 51(18): 4186-4195. (SCI)

2011年

[1] Xiaohua Jian, Chunmin Zhang*, Baochang Zhao. Polarization Detection with Polarization Interference Imaging Spectrometer[J]. Optik, 2011, 122(8):677-680.(SCI)

[2] Chunmin,Zhang*, Huachun Zhu, Baochang Zhao.The tempospatially modulated polarization atmosphere Michelson interferometer[J]. Optics Express, 2011, 19(10): 9626-9635.(SCI)

[3] Chunmin Zhang*,Qingmiao Wu,Tingkui Mu. Influences of pyramid prism deflection on inversion of wind velocity and temperature in a novel static polarization wind imaging interferometer[J]. Applied Optics, 2011, 50(32): 6134-6139.(SCI)

[4] Zhang Chunmin*, Ai Jingjing, Ren Wenyi. Exact calculation of the minimal thickness of the large optical path difference wind imaging interferometer[J]. Chinese Physics B, 2011, 20(2): 020701.(SCI)

[5] 朱化春, 張淳民*. 偏振風成像干涉儀多波長探測理論研究[J]. 物理學報, 2011, 60(7): 074211. (SCI)

[6] Chunmin Zhang*, Jianke Zhao, and Yao Sun. Influences ofthe thickness, misalignment, and dispersion of the Savart polariscope on theoptical path difference and spectral resolution in the polarizationinterference imaging spectrometer[J]. Applied optics, 2011, 50: 3497-504. (SCI)

[7] Hongwen Gao, Chunmin Zhang*, Baochang Zhao. Relativecalibration for a polarization interference imaging spectrometer[J]. OpticsCommunications, 2011, 284: 2747-2750. (SCI)

[8] Tingkui Mu, Chunmin Zhang*, Wenyi Ren , Xiaohua Jian.Static dual-channel polarization imaging spectrometer for simultaneousacquisition of inphase and antiphase interference images[J]. MeasurementScience and Technology, 2011, 22: 105302. (SCI)

[9] Tingkui Mu, Chunmin Zhang*, Wenyi Ren, Lin Zhang , XiaohuaJian. Interferometric verification for the polarization imagingspectrometer[J]. Journal of Modern Optics, 2011, 58: 154-159. (SCI)

[10] Chunmin Zhang*, Haiying Wu, Jie Li. Fourier transformhyperspectral imaging polarimeter for remote sensing[J]. Optical Engineering,2011.50(6), 066201-5. (SCI)

[11] Chunmin Zhang*, Tingkui Mu. Response to the comment on“Design and analysis of wide-field-of-view polarization imagingspectrometer”[J]. Optical Engineering, 2011, 50(4): 049701(1-2). (SCI)

[12] Chun-min Zhang*, Xin Bai, Chun-yuan Jing, Hai-ying Wu.Transmission ratio of the Glan–Taylor prism with deviated optical axes in thestatic polarization interference imaging spectrometer[J]. Optik, 2011, 122:1770–1775. (SCI)

[13] Gao Hongwen, Zhang Chunmin*, Zhao Baochang. A polarizationinterference imaging spectrometer and its calibration[J]. Optik, 2011, 122:2110–2113. (SCI)

[14] 白鑫,張淳民*,景春元,關小偉,曹芬,李豔娜,謝林利.干涉成像光譜儀光通量的計算與分析[J].物理學報,2011,60(07):180-187. (SCI)

[15] 穆廷魁,張淳民*,任文藝,張霖,祝寶輝.偏振干涉成像光譜儀的視場展寬設計與分析[J].物理學報,2011,60(07):188-194. (SCI)

[16] Hongwen Gao, Chunmin Zhang*. Throughput of a polarizationinterference imaging spectrometer in remote sensing[C]//2011: 803202–803202.(EI)

[17] Tingkui Mu, Chunmin Zhang*.Dual-channel polarization imaging spectrometer[C]//Proceedings of SPIE - TheInternational Society for Optical Engineering. 2011, 8032. (EI)2010年

[1] Mu Tingkui, Zhang Chunmin*. A novel polarizationinterferometer for measuring upper atmospheric winds[J]. Chinese Physics B,2010, 19(6): 060702. (SCI)

[2] 張淳民*, 朱蘭豔. 新型偏振風成像干涉儀中偏振化方向對調製度和干涉強度的影響研究[J]. 物理學報, 2010, 59(2): 989-997. (SCI)

[3] 張霖, 張淳民*, 簡小華. 高層大氣風場洛倫茲光譜線型粒子輻射率探測研究[J]. 物理學報, 2010 (2): 899-906. (SCI)

[4] 朱化春, 張淳民*, 簡小華. 新型風成像干涉儀温度補償理論研究[J]. 物理學報, 2010, 59(2): 893-898. (SCI)

[5] 劉寧, 張淳民*, 王金嬋, 穆廷魁. 新型靜態偏振風成像干涉儀理論探測誤差的分析與計算[J]. 物理學報, 2010 (6): 4369-4379. (SCI)

[6] 王金嬋, 張淳民, 趙葆常, 劉寧. 靜態偏振風成像干涉儀中光在四面角錐稜鏡中的傳播規律研究[J]. 物理學報, 2010, 59(3): 1625-1631. (SCI)

[7] Xiaohua Jian, Chunmin Zhang*, Lin Zhang, Baochang Zhao.The data processing of the temporarily and spatially mixed modulatedpolarization interference imaging spectrometer[J]. Optics Express,2010,18(6):5674-5680. (SCI)

[8] Chunmin Zhang*,Xiaohua Jian. Wide-spectrum reconstructionmethod for a birefringence interference imaging spectrometer[J]. Optics Letters,2010, 35(3): 366-368. (SCI)

[9] Haiying Wu, Chunmin Zhang*, Xin Bai. A completedescription of polarization and transmission of nonnormal incident rays in auniaxial birefringent plate with arbitrary optic axis[J]. OpticsCommunications,2010,283(12): 4129-4134. (SCI)

[10] Junfang Wu, Chunmin Zhang*. Relationship between incidentangle and dispersion in static large field of view polarization interferenceimaging spectrometer[J]. Chinese Physics B, 2010, 19: 034201. (SCI)

[11] Haiying Wu, Chunmin Zhang*, Jie Li. A simple and effectivemodel for Jones matrix to evaluate the transmission performance of Savartpolariscope[J]. Chinese Physics B, 2010, 19: 114201. (SCI)

[12] Chunmin Zhang*, Wenyi Ren,Tingkui Mu. Effects of optical axis direction on optical pathdifference and lateral displacement of Savart polariscope[J]. Chinese PhysicsB, 2010, 19: 024202. (SCI)

[13] Chunmin Zhang*, Tingkui Mu, WenyiRen, Lin Zhang, Ning Liu. Design and analysis of wide-field-of-viewpolarization imaging spectrometer[J]. Optical Engineering, 2010, 49. (SCI)

[14] 張淳民*,劉寧,吳福全. 偏振干涉成像光譜儀中格蘭-泰勒稜鏡全視場角透過率的分析與計算[J]. 物理學報,2010,59(02):949-957. (SCI)

[15] 張淳民*,黃偉健,趙葆常. 新型偏振干涉成像光譜儀噪聲分析與評價[J]. 物理學報,2010, 59(08): 5479-5486. (SCI)

[16] 簡小華,張淳民,祝寶輝,任文藝. 時空混合調製型偏振干涉成像光譜儀數據處理研究[J]. 物理學報, 2010, 59 (09): 6131-6137. (SCI)

[17] 嚴新革,張淳民,趙葆常.時空混合調製型偏振干涉成像光譜儀干涉圖獲取模式研究[J].物理學報, 2010, 59 (05): 3123-3129. (SCI)

[18] 孫堯,張淳民*,杜娟,趙葆常.一種基於新型偏振干涉成像光譜儀的目標偏振信息探測新方法[J].物理學報, 2010, 59 (6):3863-3870. (SCI)

[19] Chunmin Zhang*, Zhilin Yuan,Mingzhao Sun, Junfang Wu, Peng Gao. Miniature periodic structures ofleft-handed materials[J]. Applied Optics,2010,49(3): 281-285. (SCI)

[20] Chunmin Zhang*, Peng Gao, MingzhaoSun, Tingkui Mu. Analysis of the resonant frequency of the octagonal splitresonant rings with metal wires[J]. Applied Optics,2010,49(29):(1-7). (SCI)

[21] 孫明昭,張淳民*,宋曉平. 新型八邊形諧振環金屬線複合週期結構左手材料奇異性質研究[J].物理學報,2010,59 (8) :5444-5449. (SCI)

2009年

[1] Zhichao Bu*, Chunmin Zhang, Baochang Zhao. A staticand divided mirror Michelson interferometer for measuring atmosphericwinds[C]//2008 International Conference on Optical Instruments and Technology:Optical Systems and Optoelectronic Instruments. SPIE, 2009, 7156: 975-982. (EI)

[2] 步志超, 張淳民, 趙葆常, 朱化春. 大視場消色差温度補償型風成像干涉儀調製度的分析與計算[J]. 物理學報, 2009, 58(4): 2415-2422. (SCI)

[3] 簡小華,張淳民*,趙葆常,張霖, 朱蘭豔. 利用偏振干涉成像光譜儀進行偏振檢測的最佳角度分析[J].物理學報,2009,58(04): 2286-2293. (SCI)

[4] Chunmin Zhang*, Baochang Zhao,Zhilin Yuan, Weijian Huang. Analysis of signal-to-noise ratio of anultra-compact static polarization interference imaging spectrometer[J]. Journalof Optics A: Pure and Applied Optics, 2009, 11: 085401. (SCI)

[5] Tingkui Mu, Chunmin Zhang*,Baochang Zhao. Principle and analysis of a polarization imagingspectrometer[J]. Applied Optics, 2009, 48: 2333–9. (SCI)

[6] Tingkui Mu*, Chunmin Zhang*, andBaochang Zhao. Analysis of a moderate resolution Fourier transform imagingspectrometer[J]. Optics Communications, 2009, 282: 1699–1705. (SCI)

[7] Tingkui Mu*, Chunmin Zhang*, andBaochang Zhao. Optical path difference evaluation of the polarizationinterference imaging spectrometer[J]. Optics Communications, 2009, 282:1984–1992. (SCI)

[8] Wenyi Ren, Chunmin* Zhang, TingkuiMu. Application of Equivalent Air Gap Method In Uniaxial Crystal Plate[J].Chinese Physics Letters, 2009, 26(8): 084209(1-3). (SCI)

[9] 吳海英,張淳民*,趙葆常. 改型Wollaston稜鏡的光程差及其特性分析[J]. 物理學報, 2009, 58(3): 1642-1647. (SCI)

[10] 吳海英*,張淳民,趙葆常. 基於組合Wollaston稜鏡成像光譜儀的視場擴大原理分析[J]. 物理學報, 2009,58(2): 930-935. (SCI)

[11] 穆廷魁,張淳民*,趙葆常. 偏振干涉成像光譜儀中Wollaston稜鏡光程差及條紋定位面的精確計算與分析[J]. 物理學報,2009,58(6): 3877-3886. (SCI)

[12] 張淳民*,孫明昭,袁志林,宋曉平. 基於三角諧振環的新型六邊形諧振環金屬線複合週期結構左手材料性質研究[J]. 物理學報,2009, 58(3):1758-1764. (SCI)

[13] 孫明昭, 張淳民*, 宋曉平, 梁工英, 孫佔波. 基於矩形諧振環的新型複合週期結構左手材料研究[J]. 物理學報, 2009,58 (9):6179-6184. (SCI)

2008年

[1] 葉健勇, 張淳民*, 趙葆常. 高層大氣風場四強度測量法誤差分析與計算[J]. 物理學報, 2008, 57(1): 67-73. (SCI)

[2] 阮楷, 張淳民*, 趙葆常. 高層大氣風場探測改型大光程差Sagnac干涉儀全視場角光程差與橫向剪切量的精確計算[J]. 物理學報, 2008,57(9):5435-5441. (SCI)

[3] 簡小華,杜鵑,張淳民*,趙葆常,祝寶輝.利用偏振干涉成像光譜儀進行偏振探測的新方法[J].物理學報,2008,52(12): 7565-7570. (SCI)

[4] Chunmin Zhang*, Xinge Yan,Baochang Zhao. A novel model for obtaining interferogram and spectrum based onthe temporarily and spatially mixed modulated polarization interference imagingspectrometer[J]. Optics Communications, 2008, 281(8): 2050-2056. (SCI)

[5] Xiaohua Jian, Chunmin Zhang*,Baochang Zhao, Baohui Zhu. The application of MUSIC algorithm in spectrumreconstruction and interferogram processing[J]. Optics Communications, 2008,281(9): 2424-2428. (SCI)

[6] 吳海英,張淳民*,趙葆常. 新型偏振干涉成像光譜儀中格蘭—泰勒稜鏡的像質分析與評價[J]. 物理學報, 2008, 57(6): 3499-3505. (SCI)

[7] 杜鵑,張淳民*,趙葆常,孫堯. 穩態大視場偏振干涉成像光譜儀中視場補償型Savart偏光鏡透射率研究[J].物理學報, 2008(10): 6311-6318. (SCI)

[8] 查新未,張淳民.利用一個三粒子W態隱形傳送N粒子GHZ態[J].物理學報,2008(03):1339-1342. (SCI)

2007年

[1] ChunMin Zhang*, BaoChang Zhao, YingCai Li, JianYong Ye.Novel imaging interferometer for upper high-speed atmospheric wind fieldsurvey[C]//27th International Congress on High-Speed Photography and Photonics.SPIE, 2007, 6279: 431-438. (EI)

[2] Yuanhe Tang, Guangde Chen, Chunmin Zhang, Yunlong Lin,Hanchen Liu, Kai Liu. Optimization of the modified Sagnac imaginginterferometer for full compensation[C]// 27th International Congress onHigh-Speed Photography and Photonics. SPIE, 2007, 6279: 456-461. (EI)

[3] 賀健, 張淳民, 張慶國. 佛克脱光譜線型干涉圖的理論及其應用研究[J]. 光譜學與光譜分析, 2007, 27(3): 423-426.(EI)

[4] 葉劍勇, 張淳民, 趙葆常, 唐遠河. 大氣風場探測薩尼亞克干涉儀光程差的計算及探測模式研究[J]. 光學學報, 2007, 27(7): 1145-1150.(EI)

[5] 汪麗, 趙葆常, 相里斌, 張淳民, 秦愛麗. 邁克爾遜風場干涉儀基準光程差及步長誤差容限分析[J]. 光子學報, 2007, 36(9): 1697-1700.(EI)

[6] 唐遠河, 陳光德, 趙振宇, 張淳民. 改型薩尼亞克成像干涉儀的光通量[J]. 光學學報, 2007, 27( 8):1490-1493. (EI)

[7] Lei Wu, Chunmin Zhang*, BaochangZhao. Analysis of the lateral displacement and optical path difference inwide-field-view polarization interference imaging spectrometer[J]. OpticsCommunications, 2007, 273(1): 67-73. (SCI)

[8] 簡小華,張淳民*,趙葆常. 研究干涉圖處理與光譜復原的一種新方法[J]. 物理學報, 2007, 56(2): 824-829. (SCI)

[9] 袁志林,張淳民*,趙葆常. 新型偏振干涉成像光譜儀信噪比研究[J]. 物理學報, 2007, 56(11): 6413-6419. (SCI)

[10] 簡小華,張淳民*,孫堯,吳磊. 一種可調橫向剪切量的新型偏振干涉成像光譜儀[J]. 光學學報, 2007, 27(4): 643-646. (EI)

[11] 洪新華,梁雲傑,殷世民,張淳民. 光譜儀焦平面陣列非均勻性校正的研究[J]. 河南師範大學學報(自然科學版), 2007, 35(4): 62-67.

[12] 王懷軍,李維民,張淳民等.應用業務預測的動態帶寬分配算法[J].光電工程,2007,(05).

2006年

[1] Chunmin Zhang*, Jian He. The generalization of upperatmospheric wind and temperature based on the Voigt line shape profile[J].Optics Express, 2006, 14(26) : 12561-12567. (SCI)

[2] Chunmin Zhang*, Baochang Zhao, Bin Xiangli, Yingcai Li.Interference image spectroscopy for upper atmospheric wind fieldmeasurement[J]. OptiK, 2006, 117(6): 265-270. (SCI)

[3] 唐遠河, 張淳民, 陳光德, 劉漢臣, 林雲龍, 葉劍勇. 星載超廣角改形Sagnac干涉儀的自推掃探測大氣風場[J]. 自然科學進展, 2006, 16(11): 1491-1495.

[4] 汪麗, 趙葆常, 相里斌, 張淳民, 秦愛麗. 風場探測干涉儀中基準光程差的選擇原理[J]. 光子學報, 2006, 35(8):1254-1258.(EI)

[5] Chunmin Zhang*, Baochang Zhao, BinXiangli, Yingcai Li, Zhihong Peng. Birefringent laterally sheared beamsplitter-Savart polariscope[C]//Proceedings of SPIE - The International Societyfor Optical Engineering. 2006, 6150: 615001–615005. (EI)

[6] Chunmin Zhang*, Baochang Zhao, YanYuan, Jian He. Analysis of the throughput of onboard polarization interferenceimaging spectrometer - art. no. 60320T[J]. Proceedings of SPIE - TheInternational Society for Optical Engineering, 2006, 6032. (SCI)

[7] 彭志紅*,張淳民,趙葆常,李英才,吳福全. 新型偏振干涉成像光譜儀中Savart偏光鏡透射率的研究[J]. 物理學報, 2006, 55(12): 6374-6381. (SCI)

[8] 彭志紅,張淳民. 顯微偏振干涉成像光譜儀中景深對系統分辨力的影響[J]. 光學學報, 2006, 26(2): 239-244. (EI)

[9] 蘇星,田維堅,張淳民. 新型顯微成像光譜儀系統中線陣針孔離焦研究[J]. 光學技術, 2006, 32(5): 729-734.

[10] 蘇星,田維堅,張淳民. 顯微成像光譜儀技術的研究及應用[J]. 光學技術, 2006, 32(6): 820-823.

[11] 張麗娟,李維民,張淳民,陳福都. OBS網絡中競爭解決機制研究[J]. 光通信技術,2006,30(7):24-26.

[12] 陳福都，李維民，張淳民，張麗娟，一種改進的GPON動態帶寬分配策略，光通信技術，2006(7):16-18.

[13] 張麗娟，李維民，張淳民.一種用於解決OBS網中資源競爭的新機制[J]. 光通信研究,2006(6):8-10.

[14] 陳福都，李維民，張淳民，張麗娟. 基於小波變換的GPON動態帶寬分配算法研究[J]. 空軍工程大學學報（自然科學版）,2006,7(5):42-44,47.

[15] 查新未，張淳民. 三體純態的糾纏度及其分類[J]. 西安交通大學學報,2006,40(2):243-245. (EI)

[16] 吳俊芳，張淳民，自旋梯可積模型的研究[J]，計算物理，2006，23(2):189-192.

[17] Xing Su*, Weijian Tian, Chunmin Zhang. Analysis of theeffect on tissue autofluorescence detection from off-focus of Linear-arraypinholes in LP-Laser Scanning Confocal fluorescence Microscopical ImagingSpectrometer[C]. //ICO20:Biomedical Optics. 2006:60260S.1-60260S.7. (EI)

2005年

[1] Jian He, Chunmin Zhang*. The accurate calculation of theFourier transform of the pure Voigt function[J]. Journal of Optics A-Pure andApplied Optics, 2005, 7 (10): 613-616. (SCI)

[2] 唐遠河, 張淳民, 劉漢臣, 陳光德, 賀健. 基於鍍膜四面角錐稜鏡技術的上層大氣風場探測研究[J]. 物理學報, 2005, 54(9): 4065-4071. (SCI)

[3] 賀健, 張淳民, 唐遠河, 趙葆常. 洛倫茲光譜線型的高層大氣風場被動探測原理分析[J]. 光學學報, 2005, 25(5): 577-580. (EI)

[4] 唐遠河, 張淳民, 賀健, 陳光德. 基於洛倫茲線型極光的上層大氣風場探測模式研究[J]. 光學學報, 2005, 25(6): 721-725. (EI)

[5] 唐遠河, 張淳民, 陳光德, 賀會玲, 賀健. 衞星遙感探測上層大氣風場的關鍵技術研究進展[J]. 物理學進展, 2005, 25(2): 142-151.

[6] 吳磊,張淳民,趙葆常. 薩伐爾偏光鏡橫向剪切量和光程差的精確計算[J]. 光學學報, 2005, 25(7): 885-890 .(EI)

[7] 仇浩, 張淳民*. 關於高速運動物體視覺形象的討論[J], 大學物理, 2005, 24(4): 62-65.

[8] Junfang Wu, Chunmin Zhang, Ruihong Yue, Runling Li.Nested BetheAnsatz for Spin Ladder Model with Open Boundary Conditions[J]. Communicationsin Theoretical Physics,2005,43(4):687-694. (SCI)

2004年

[1] 賀健, 張淳民*, 唐遠河, 廖京川. 洛侖茲光譜線型的上層大氣風場被動探測[J]. 大珩先生九十華誕文集暨**光學學會 2004 年學術大會論文集, 2004.

[2] 賀健, 唐遠河, 張淳民. 基於極光佛克脱線型精確解的上層大氣風場探測研究[J]. 發光學報, 2004, 94.(EI)

[3] 唐遠河, 張淳民*, 陳光德, 賀健. 上層大氣風場探測中兩視場的時間延遲[A]. 中國光學學會2004年學術大會會議論文集[C], 2004, 51-55.

[4] 唐遠河, 陳光德,張淳民*, 劉漢臣, 竹有章. O(I,II) Forbidden Lines Aurora and Their PhotochemicalReaction [J]. 發光學報, 2004, 63-69.(EI)

[5] Chunmin Zhang, Baochang Zhao, BinXiangli. Wide-Field-of-View Polarization Interference Imaging Spectrometer[J].Applied Optics, 2004, 43: 6090–4. (SCI)

[6] Chunmin Zhang, Bin Xiangli,Baochang Zhao. Permissible deviations of the polarization orientation in thepolarization imaging spectrometer[J]. Journal of Optics A-Pure and AppliedOptics, 2004, 6 (8): 815-817. (SCI)

[7] 張淳民, 相里斌, 趙葆常, 袁豔. 偏振成像光譜儀中偏振化取向的允差偏角(英文)[C]//中國光學學會.大珩先生九十華誕文集暨中國光學學會2004年學術大會論文集.浙江大學出版社,2004:5.

[8] 嚴新革, 張淳民*, ISODATA 和模糊K 均值算法在圖像分割中的應用[A], 中國光學學會2004年學術大會會議論文集[C], 2004, 81-84.

2003年

[1] Chunmin Zhang*, Baochang Zhao, BinXiangli. Analysis of the Modulation Depth Affected by the PolarizationOrientation in Polarization Interference Imaging spectrometers[J]. OpticsCommunications, 2003, 227 (4-6): 221-225. (SCI)

[2] 田秀勞, 張淳民. N維各向同性諧振子四類升降算子的歸一化係數[J].光子學報,2003, 31(12):1524~1527. (EI)

[3] 查新未, 張淳民. 量子糾纏態及可分離態判據[J]，西安交大學報,2003, 37(7):769~770. (EI)

[4] 查新未, 張淳民. New theory of quantum entanglement[J], J. Shaanxi Normal Univ., 2003, 31(2): 32-35.

2002年

[1] Chunmin Zhang*, Bin Xiangli, Baochang Zhao. A staticPolarization Imaging Spectrometer based on a Savart polariscope[J]. OpticsCommunications, 2002, 203(1-2): 21-26. (SCI)

2001年

[1] 張淳民*,趙葆常,相里斌,楊建峯.偏振干涉成像光譜儀通量的分析與計算[J]. 光學學報, 2001, 21 (2): 192-197. (EI)

2000年

[1] 張淳民*, 王煒, 相里斌, 趙葆常. 利用干涉成像光譜技術測量大氣風場[J]. 光學學報, 2000, 20(2): 234-239. (EI)

[2] 張淳民*, 趙葆常, 相里斌. 高穩定度大視場大氣風場測量新方法[J]. 光學學報, 2000, 20(5): 697-700. (EI)

[3] Chunmin Zhang*, Bin Xiangli,BaoChang Zhao. Static Polarization Interference Imaging Spectrometer(SPIIS)[J].Proc. SPIE, 2000, 4087: 957-961. (EI)

[4] 張淳民*, 趙葆常, 相里斌. 偏振干涉成像光譜儀中偏振化方向對調製度的影響[J]. 光學學報, 2000, 20 (8): 1077-1083. (EI)

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