2024年(共4篇，其中SCI收录4篇)：

[1] Yifan He, Chunmin Zhang, Biyun Zhang, Zhengyi Chen. FSPnP: Plug-and-play frequency–spatial-domain hybrid denoiser for thermal infrared image[J]. IEEE Transactions on Geoscience and Remote Sensing, 2024, 62: 5000416.

[2] Zhengyi Chen, Chunmin Zhang, Biyun Zhang, Yifan He. Triplet contrastive learning framework with adversarial hard-negative sample generation for multimodal remote sensing images[J]. IEEE Transactions on Geoscience and Remote Sensing, 2024, 62: 5506015.

[3] Zhiyuan Li, Tingkui Mu, Bin Wang, Qiujie Yang, Haishan Dai. Background covariance discriminative dictionary learning for hyperspectral target detection[J]. International Journal of Applied Earth Observation and Geoinformation, 2024, 128: 103751-1-14.

[4] Qiuxia Li, Tingkui Mu, Abudusalamu Tuniyazi, Qiujie Yang, Haishan Dai, Progressive pseudo-label framework for unsuperised hyperspectral change detection[J]. International Journal of Applied Earth Observation and Geoinformation, 2024, 127: 103663-1-13.

2023年(共12篇，其中SCI收录12篇)：

[1] Zhengyi Chen, Chunmin Zhang, Biyun Zhang, Yifan He. Triplet contrastive learning framework with adversarial hard-negative sample generation for multimodal remote sensing images[J]. IEEE Transactions on Geoscience and Remote Sensing, 2024, 62: 5506015.

[2] Zeyu Chen, Christoph Krafft,Chunmin Zhang, Tanveer Ahmed Shaik and Jürgen Popp, Polarization Raman microscope based on channeled spectropolarimetry[J]. Optics and Lasers in Engineering, vol. 168, 2023.

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

[4] Ke Ke, Chunmin Zhang, Qian Tang, Yifan He, Baoli Yao. Single Underwater Image Restoration Based on color correction and Optimized Transmission Map Estimation[J]. Measurement Science and Technology, 2023, 34.

[5] Ning Chang, Shiping Guo, Chunmin Zhang, Yanqiang Wang, Feng Tang. Imaging Characteristics of Disturbance Flow Field Surrounding a Hypersonic Target[J]. Applied Sciences, 2023, 13(15), 8827.

[6] Ke Ke, Chunmin Zhang, Yujiao Zhang, Ning Chang, Feng Tang. Fusion-based restoration method for uneven illumination images in deep sea[C]//2023, 12550:282-288.

[7] Chunmin Zhang, Tingyu Yu, Yanqiang Wang, Biyun Zhang, Zhengyi Chen, Zeyu Chen, Ward William, Kristoffersen Samuel. Static Wind Imaging Michelson Interferometer for the Measurement of Stratospheric Wind Field[J]. Optics Express, 2023, 31 (18): 29411-29426.

[8] Chunmin Zhang, Yanqiang Wang, Biyun Zhang,Tingyu Yan,Zeyu Chen, Zhengyi Chen. Novel Compact Polarized Martian Wind Imaging Interferometer[J]. Remote Sensing, 2023, 15: 4881.

[9] Haoyang Li, Tingkui Mu, Feng Han, Abudusalamu Tuniyazi, Wenjing Wang. Snapshot miniature optically replicating and remapping imaging spectropolarimeter (MINI-ORRISp): Design, calibration and performance[J].Optics and Lasers in Engineering, 2023, 169: 107717-1-15.

[10] Feng Han, Tingkui Mu, Haoyang Li, Abudusalamu Tuniyazi. Deep image prior plus sparsity prior: toward single-shot full-Stokes spectropolarimetric imaging with a multiple-order retarder[J].SPIE Advanced Photonics Nexus, 2023, 2(3): 036009.

[11] Abudusalamu Tuniyazi, Tingkui Mu, Qiuxia Li, Haoyang Li, Xiaosa Jiang, Feng Han,  Hang Gong, Wenjing Wang,Xuechan Lang, Bin Wang, Zhiyuan Li, Jie Wu. Bayesian neural networks enabled snapshot polarized light scattering spectroscopy with uncertainty quantification[J].Optics and Lasers in Engineering, 2023, 160: 107298-1-15.

[12] Huiqin Gao, An Pan, Yuting Gao, Yu Zhang, Quanzhen Wan, Tingkui Mu, and Baoli Yao. Redundant information model for Fourier ptychographic microscopy[J]. Optics Express, 2023, 31(26): 42822-42837.

2022年(共8篇，其中SCI收录8篇)：

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

[2] Zhengyi Chen, Chunmin Zhang, Tingkui Mu, Yifan He. Tensorial Multiview Subspace Clustering for Polarimetric Hyperspectral Images, IEEE Transactions on Geoscience and Remote Sensing, vol. 60, 2022.

[3] Chunmin Zhang, Yifan He, Qian Tang, Zhengyi Chen, Tingkui Mu, Infrared Small Target Detection via Inter-patch Correlation Enhancement and Joint Local Visual Saliency Prior[J]. IEEE Transactions on Geoscience and Remote Sensing, vol. 60, 2022

[4] Zeyu Chen,Chunmin Zhang,Tingkui Mu, Yanqiang Wang, Yifan He, Tingyu Yan, Zhengyi Chen. Coded aperture full-stokes imaging spectropolarimeter[J]. Optics and Laser Technology, 2022, 150.

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

[6] Tingkui Mu, Feng Han, Haoyang Li, Abudusalamu Tuniyazi, Qiuxia Li, Hang Gong, Wenjing Wang, Rongguang Liang. Snapshot hyperspectral imaging polarimetry with full spectropolarimetric resolution[J]. Optics and Lasers in Engineering, 2022,148:106767-1-12.

[7] Qiuxia Li,  Tingkui Mu, Hang Gong, Haishan Dai, Chunlai Li, Zhiping He, Wenjing Wang, Feng Han, Abudusalamu Tuniyazi, Haoyang Li, Xuechan Lang, Zhiyuan Li, Bin Wang. A Superpixel-by-Superpixel Clustering Framework for Hyperspectral Change Detection[J]. Remote Sensing, 2022, 14(12): 2838-1-20.

[8] Hang Gong, Tingkui Mu, Qiuxia Li, Haishan Dai, Chunlai Li, Zhiping He, Wenjing Wang, Feng Han, Abudusalamu Tuniyazi, Haoyang Li, Xuechan Lang, Zhiyuan Li, Bin Wang. Swin-Transformer-Enabled YOLOv5 with Attention Mechanism for Small Object Detection on Satellite Images[J]. Remote Sensing, 2022, 14(12): 2861-1-17.

2021年(共12篇，其中SCI收录8篇)：

[1] Zhang C, Du X, Yan T, Li G. Research on Instrument Visibility of Ozone Wind Imaging Interferometer[J]. Remote Sensing, 2021,13(6):1062.

[2] Zhang C, Yan T, Jia C, Ward W E. Tempo-spatially modulated imaging spectropolarimetry based on polarization modulation array[J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 2021,261:107448.

[3] Rong P, Zhang C, Ward W E, Zhu H, Dai H. Compensation optimization for a static Mars wind imaging Michelson interferometer[J]. Optics and Lasers in Engineering, 2021,142:106589.

[4] Tuniyazi A, Mu T, Jiang X, Han F, Li H, Li Q, Gong H, Wang W, Qin B. Snapshot polarized light scattering spectroscopy using spectrally-modulated polarimetry for early gastric cancer detection[J]. Journal of Biophotonics, 2021, 14(9): e202100140.

[5] Gong H, Li Q, Li C, Dai H, He Z, Wang W, Li H, Han F, Tuniyazi A, Mu T. Multiscale Information Fusion for Hyperspectral Image Classification Based on Hybrid 2D-3D CNN[J]. Remote Sensing, 2021,13(12): 2268-1-18.

[6] Li Q, Gong H, Dai H, Li C, He Z, Wang W, Feng Y, Han F, Tuniyazi A, Li H, Mu T. Unsupervised Hyperspectral Image Change Detection via Deep Learning Self-Generated Credible Labels[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2021,14: 9012.

[7] Gong H, Mu T, Li Q, Han F, Tuniyazi A, Li H, Wang W, He Z, Li C，Dai H. Hyperspectral image classification using 3D-2D CNN with multi-scale information extraction and fusion module[C]. SPIE, 2022.

[8] He Y, Zhang C, Mu T, Yan T, Wang Y, Chen Z. Multiscale Local Gray Dynamic Range Method for Infrared Small-Target Detection[J]. IEEE Geoscience and Remote Sensing Letters, 2021, 18(10): 1846-1850.

[9] Quan N, Zhang C,Mu T, Li S, You C. Snapshot spectroscopic Mueller matrix polarimetry based on spectral modulation with increased channel bandwidth[J]. Optics Express, 2021, 29(20): 31607-31614.

[10] Li Q, Mu T, Feng Y, Gong H, Han F, Tuniyazi A, Li H, Wang W, Li C, He Z, Dai H. Hyperspectral image change detection using two-branch Unet network with feature fusion[C]. SPIE, 2022.

[11] Han F, Mu T, Tuniyazi A, Li Q, Gong H, Li H, Wang W. Iterative reconstruction for linear imaging spectropolarimetry without polarimetric calibration[C]. SPIE,2022.

[12] He Y, Chunmin Zhang C, Mu T. Polarized image enhancement based on biological vision[C]. SPIE,2022.

2020年(共12篇，其中SCI收录10篇，EI收录2篇)：

[1] Quan N, Zhang C, Mu T, You C, Spectroscopic Mueller matrix polarimeter based on spectro-temporal modulation[J], Optics Express, 2020, 28, 37758-37772 . （SCI）

[2] Quan N, Zhang C, Mu T, Li S, You C, Estimation variance of dual-rotating-retarder Mueller matrix polarimeter in the presence of Gaussian thermal noise and Poisson shot noise[J], Journal of Optics, 2020,2,1421-1434. （SCI）

[3] He Y, Zhang C, Mu T, Yan T, Wang Y, Chen Z. Multi-scale Local Gray Dynamic Range Method for Infrared Small Target Detection[J]，IEEE Geoscience and Remote Sensing Letters, 2020, 1558-0571.（SCI）

[4] Sun Y, Zhang C, Zhang P, Mu T, Yan T, Wang Y. Calibration of Frequency Shift System of Wind Imaging Interferometer[J], Photogrammetric Engineering & Remote Sensing, 2020， 86(12):753-760. （SCI

[5] Rong P, von Savigny C, Zhang C, Hoffman C and Schwartz M. Response of middle atmospheric temperature to the 27 d solar cycle: an analysis of 13 years of microwave limb sounder data[J]. Atmospheric Chemistry and Physics, 2020,20(3):1737-1755. （SCI）

[6] Wu M, Zhang C, Jiao Z and Zhang G. Improvement of dehazing algorithm based on dark channel priori theory[J]. Optik, 2020,206:164174. （SCI）

[7] Wang Y, Zhang C, Mu T, Yan T, Chen Z, Chen Z and He Y. Design and analysis of a Fourier transform imaging spectropolarimetry based on polarization modulation array (PMAFTISP)[J]. Optics Communications, 2019, 460:125101. （SCI）

[8] Rong P, Zhang C, Liu D, et al. Sensitivity analysis of an XCO2 retrieval algorithm for high-resolution short-wave infrared spectra[J]. Optik - International Journal for Light and Electron Optics, 2020, 209:164502. （SCI）

[9] Han F, Mu T, Bao D, Tuniyazi A, Li Q, Gong H, Chen Z and Zhang C. Iterative reconstruction for general linear imaging polarimetry without polarimetric calibration[J]. Optics letters, 2020,45(1):57.（SCI）

[10] He Y, Zhang C, Mu T. Polarized image enhancement based on biological vision[C]// Fourth International Conference on Photonics and Optical Engineering. 2020. （EI）

[11] Sun Y, Zhang C, Zhang P, et al. Research on Inversion Algorithm of Arbitrary Phase-shifting Wind Imaging Interferometer[C] // Fourth International Conference on Photonics and Optical Engineering. 2020. （EI）

[12] Han F, Mu T, Tuniyazi A, Bao D, Gong H, Li Q, Chen Z, Zhang C. Iterative reconstruction for snapshot intensity-modulated linear imaging spectropolarimetry without Fourier transform and phase calibration[J]. Optics and Lasers in Engineering, 2020, 134: 106286. (SCI)

2019年(共12篇，其中SCI收录7篇，EI收录5篇)：

[1] Mu T, Han F, Bao D , et al. Compact snapshot optically replicating and remapping imaging spectrometer (ORRIS) using a focal plane continuous variable filter[J]. Optics Letters, 2019, 44(5):1281. （SCI）

[2] Peng T , Li R , An S , et al. Real-time optical manipulation of particles through turbid media[J]. Optics Express, 2019, 27(4):4858. （SCI）

[3] Yan T, Zhang C. Aliasing reduction for channeled spectropolarimetry based on super-resolution technique[C]. SPIE, 2019. （EI）

[4] Wang Y, Zhang C, He Y. Sparse aperture masking technique on measurement of star diameter[C]. SPIE, 2019. （EI）

[5] Xue X, Zhao J, Zhang Cet al. Thermal vacuum optical performance test system for space laser communication terminal [C]. SPIE, 2019. （EI）

[6] Chen Z, Zhang C. Efficient sparse subspace clustering for polarized hyperspectral images. [C]. SPIE, 2019. （EI）

[7] Quan N , You C , Zhang C , et al. Channeled spectropolarimetry with increased bandwidth and aliasing reduction[J]. Optik, 2019, 181:562-570. （SCI）

[8] Li R, Peng T, Zhou M, et al. Rapid wide-field imaging through scattering media by digital holographic wavefront correction[J]. Appl Opt. 2019, 58(11): 2845-2853. （SCI）

[9] Chen Z , Zhang C , Mu T , et al. Coded aperture snapshot linear-Stokes imaging spectropolarimeter[J]. Optics Communications, 2019, 450. （SCI）

[10] Chen Z, Zhang C, Mu T et al. An Efficient Representation-Based Subspace Clustering Framework for Polarized Hyperspectral Images[J]. Remote sensing (Basel, Switzerland), 2019,11(13):1513. （SCI）

[11] Mu T, Bao D, Han F, et al. Optimized design, calibration, and validation of an achromatic snapshot full-Stokes imaging polarimeter[J]. Optics Express, 2019, 27(16): 23009-23028. （SCI）

[12] Mu T, Han F, Bao D. Compact miniature snapshot imaging spectrometry using continuous variable filter. [C]. SPIE,2019. (EI)

2018年(共12篇，其中SCI收录11篇，EI收录0篇)：

[1] Tang Q, Guo L X. Dispersion nonlinearity analysis of immersed gratings[J]. Appl Opt, 2018,57(7):1548-1553.（SCI）

[2] Mu T , Bao D , Zhang C , et al. Optimal reference polarization states for the calibration of general Stokes polarimeters in the presence of noise[J]. Optics Communications, 2018, 418:120-128. （SCI）

[3] Quan N, Zhang C, Mu T. Optimal configuration of partial Mueller matrix polarimeter for measuring the ellipsometric parameters in the presence of Poisson shot noise and Gaussian noise[J]. Photonics and Nanostructures - Fundamentals and Applications, 2018,29:30-35. （SCI）

[4] Quan N, Zhang C, Mu T, Li Q. Full linearly Stokes channeled polarimetric technique with low reconstruction errors[J]. Optik,2018,164. （SCI）

[5] Quan N , Zhang C , Mu T , et al. Channeled polarimetric technique for the measurement of spectral dependence of linearly Stokes parameters[J]. Infrared Physics & Technology, 2018, 90:95-100. （SCI）

[6] Zhang J , Zhang C , Yan T , et al. Spectrum reconstruction for five-channel autocorrelation function of spectropolarimeter[J]. Optik - International Journal for Light and Electron Optics, 2017, 157:1259-1266. （SCI）

[7] Yan T, Zhang C, Zhang J, et al. High resolution channeled imaging spectropolarimetry based on liquid crystal variable retarder[J]. Optics Express, 2018, 26(8):10382. （SCI）

[8] Hagen N, Mu T, Otani Y. Stokes polarimeter performance: general noise model and analysis: erratum[J]. Applied Optics, 2018,57: 6998.  (SCI)

[9] Zhang C, Quan N, Mu T. Stokes imaging spectropolarimeter based on channeled polarimetry with full-resolution spectra and aliasing reduction[J]. Applied Optics, 2018, 57: 6128-6134.  (SCI)

[10] Quan N, Zhang C, Li Q, Mu T. Full linearly Stokes interference imaging spectropolarimeter based on channeled polarimetric technique with high optical throughput[J]. Optics and Lasers in Engineering, 2018, 110: 141-148.  (SCI)

[11] Li S, Quan N, Zhang C, Mu T, Hu B. Stokes polarimeter for the measurement of full linearly Stokes parameters with immunity to Gaussian and Poisson noise[J]. Optik, 2018, 175: 8-16.  (SCI)

[12] 张淳民，穆廷魁，颜廷昱，陈泽宇. 高光谱遥感技术发展与展望[J]. 航天返回与遥感, 2018, 39: 104-114.

2017年(共16篇，其中SCI收录9篇，EI收录5篇)：

[1] Quan N , Zhang C , Mu T . Modified Savart polariscope with wide field of view and achromatic lateral displacement[J]. Optics Communications, 2017, 382:392-398. （SCI）

[2] Quan N , Zhang C , Yan T , et al. Linear stokes imaging spectropolarimeter based on the static polarization interference imaging spectrometer[J]. Optics Communications, 2017, 391:30-36. （SCI）

[3] Li Q , Zhang C , Yan T , et al. Wavelength calibration of an imaging spectrometer based on Savart interferometer[J]. OPTICS COMMUNICATIONS, 2017, 24:24-30. （SCI）

[4] Mu T, Yan T, Zhang C, et al. Full Stokes spectralpolarimeter based on the polarization-difference interference imaging spectrometer[C]. SPIE, 2017. （EI）

[5] Rong P, Zhang C, Yan Tet al. Simulation of the fixed optical path difference of near infrared wind imaging interferometer, 2017[C]. SPIE, 2017. （EI）

[6] Li Q, Zhang C, Yan T. Experimental research for relative radiometric calibration of imaging spectrometer based on Savart plates[C]. SPIE, 2017. （EI）

[7] Liu D , Zhang C , Li Y , et al. Research on the influence of the vertical temperature profile on the retrieval of CO2 concentration[C].Second International Conference on Photonics and Optical Engineering. Proceedings of the SPIE, Volume 10256, id. 102564Q 8 pp. (2017). 2017. （EI）

[8] Gao M , Zhang C , Zhou Y . Temperature Dependent Optical Spectroscopy of Defect States in Monolayer Molybdenum Disulphide Field Effect Transistors[C]. Aps March Meeting. American Physical Society, 2017. （EI）

[9] Gao G , He K , Tian J , et al. Ultrafast all-optical solid-state framing camera with picosecond temporal resolution[J]. Optics Express. 2017. 25(8): 8721-8729. （SCI）

[10] Gao G , Tian J , Wang T , et al. Ultrafast all-optical imaging technique using low-temperature grown GaAs/AlxGa1-xAs multiple-quantum-well semiconductor[J]. Physics Letters A, 2017:S0375960117308381. （SCI）

[11] Mu T, Pacheco S, Chen Z, et al. Snapshot linear-Stokes imaging spectropolarimeter using division-of-focal-plane polarimetry and integral field spectroscopy[J]. Scientific Reports, 2017, 7: 42115. （SCI）

[12] Lu S, Ward W E , Langille J A , Kaare K S et al. Wind velocity measurement with wide angle divided mirror Michelson wind imaging interferometer[J]. Optoelectronics and Advanced Materials, Rapid Communications, 2017,11(9-10):544-550. （SCI）

[13] Zhang R , Ward W E , Zhang C . O2 Nightglow Snapshots of the 1.27 um Emission at Low Latitudes on Mars with a Static Field-Widened Michelson Interferometer[J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 2017, 203. （SCI）

[14] Mu T. Design of direct-vision prisms with minimized spectral and spatial distortions for dispersive imaging spectrometers. Sciencepaper Online, 2017, 201702-56.

[15] Mu T. Constrained estimation for calibration of Stokes polarimeter in the presence of different noise. Sciencepaper Online, 2017, 201701-286.

[16] Quan N, Zhang C, Mu T. Modified Savart polariscope with wide field of view and achromatic lateral displacement[J]. Optics Communications, 2017, 382: 392-398.  (SCI)

2016年（共16篇，其中SCI收录16篇，EI收录0篇）：

[1] Zhang C , Li Q , Yan T , et al. High throughput static channeled interference imaging spectropolarimeter based on a Savart polariscope[J]. Optics Express, 2016, 24(20):23314. （SCI）

[2] Li Q, Zhang C, Yan T, Wei Y. Polarization state demodulation of channeled imaging spectropolarimeter by phase rearrangement calibration method[J]. Optics Communications,2016,379. （SCI）

[3] Li Y, Zhang C, Liu Det al. Comparison between the ESFT and LBL simulation with enhanced SCIATRAN of orbital CO2 retrieval for High-resolution Satellite[J]. Optik, 2016,127(2):628-633. （SCI）

[4] Li Y , Zhang C , Liu D , et al. CO2 retrieval model and analysis in short-wave infrared spectrum[J]. Optik - International Journal for Light and Electron Optics, 2016, 127(10):4422-4425. （SCI）

[5] Li Y , Zhang C , Liu D , et al. XCO2 retrieval algorithm in short-wave infrared spectrum and validation with TCCON data[J]. Optik - International Journal for Light and Electron Optics, 2016, 127(16):6479-6483. （SCI）

[6] Li Y, Zhang C, Dai Het al. XCO2 satellite retrieval experiments in short-wave and infrared spectra with SCIATRAN model for Sahara Desert[J]. Science China Earth Sciences, 2016,59(11):2252-2259. （SCI）

[7] Liu D , Zhang C , Li Y , et al. The influence of temperature on the simulated high resolution spectra of enhanced SCIATRAN model in near infrared band[J]. Optik - International Journal for Light and Electron Optics, 2016, 127(18):7292-7299. （SCI）

[8] Liu D , Zhang C , Li Y , et al. The retrieval algorithm for a satellite-borne CO2-sounder: Preliminary results in near infrared band[J]. Optik - International Journal for Light and Electron Optics, 2016, 127(20):8613-8620. （SCI）

[9] 魏宇童, 刘尚阔, 颜廷昱,等. 偏振型干涉成像光谱仪谱线位置定标方法的研究[J]. 物理学报, 2016, 65(08):36-45. （SCI）

[10] Quan N , Zhang C , Mu T . Principle and analysis of a birefringent beam splitter[J]. Optik International Journal for Light & Electron Optics, 2016, 127(16):6735-6741. （SCI）

[11] Quan N , Zhang C , Mu T. Static Fourier transform imaging spectropolarimeter based on quarter-wave plate array[J]. Optik,2016,127(20). （SCI）

[12] 权乃承, 张淳民, 穆廷魁. 基于孔径分割与视场分割的通道型成像光谱偏振技术∗[J]. 物理学报, 2016, 065(008):080703-1-080703-8. （SCI）

[13] Mu T, Chen Z, Chunmin Zhang Z, Liang R. Optimal design and performance metric of broadband full-Stokes polarimeters with immunity to Poisson and Gaussian noise[J]. Optics Express, 2016, 24(26): 29691-29704.  (SCI)

[14] Mu T, Chen Z, Pacheco S, Wu R, Zhang C, Liang R. Generation of a controllable multifocal array from a modulated azimuthally polarized bea[J]. Optics Letters, 2016, 41(2): 261-264.  (SCI)

[15] Mu T, Chen Z, Zhang C, Liang R. Optimal configurations of full-Stokes polarimeter with immunity to both Poisson and Gaussian noise[J]. Journal of Optics, 2016, 18(5), 055702.  (SCI)

[16] Quan N, Zhang C, Mu T. Channeled spectropolarimetry based on division of aperture and field of view[J]. Acta Physica Sinica,2016, 65: 080703.  (SCI)

2015年（共10篇，其中SCI收录9篇，EI收录1篇）：

[1] Mu T, Zhang C, Li Qet al. Error analysis of single-snapshot full-Stokes division-of-aperture imaging polarimeters[J]. Optics Express, 2015,23(8):10822. （SCI）

[2] Mu T, Zhang C, Li Qet al. Achromatization of waveplate for broadband polarimetric system[J]. Opt Lett, 2015,40(11):2485-2488. （SCI）

[3] Mu T, Zhang C, Liang R. Demonstration of a snapshot full-Stokes division-of-aperture imaging polarimeter using Wollaston prism array[J]. Journal of optics (2010), 2015,17(12):125708. （SCI）

[4] Li Y, Zhang C, et al. Comparison between the ESFT and LBL simulation with enhanced SCIATRAN of orbital CO2 retrieval for High-resolution Satellite[J]. OPTIK, 2015, 127(2):628-633. （SCI）

[5] 李祺伟, 张淳民, 魏宇童,等. 偏振型干涉成像光谱仪中Savart偏光镜通光孔径的研究∗[J]. 物理学报, 2015, 000(022):1-11. （SCI）

[6] 陈洁, 张淳民, 王鼎益, 张兴赢, 王舒鹏, 栗彦芬, 刘冬冬, 荣飘.. 地表反照率对短波红外探测大气CO2的影响[J]. 物理学报, 2015(23):423-429. （SCI）

[7] Zhang C, Zhang C. A switchable femtosecond and picosecond soliton fiber laser mode-locked by carbon nanotubes[J]. Laser physics, 2015,25(7):75104. （SCI）

[8] Rong P, Zhang C, Wang D, et al. Simulation of the Atmospheric CO2 measurements at Fuling with the Inversion Model Results[C]. The International Conference on Photonics and Optical Engineering (icPOE 2014). International Society for Optics and Photonics, 2015. （EI）

[9] Li Y , Zhang C , Wang D , et al. Comparison between the ESFT method and LBL method of CO2 retrieval for high-resolution satellite[J]. 2015, 9449(GCIS). （SCI）

[10] Mu T, Zhang C, Qiwei Li Q , Liang R. Achromatization of retarder for broadband polarimetric system[J]. Optics Letters, 2015, 40(11): 2485-2488   (SCI)

2014年（共5篇，其中SCI收录4篇，EI收录1篇）：

[1] Mu T , Zhang C , Li Q , et al. Achromatic Savart polariscope: choice of materials[J]. Optics Express, 2014, 22(5):5043. （SCI）

[2] Cao Q, Zhang C, et al. Achromatic snapshot imaging polarimeter using modified Savart polariscopes and hybrid (refractive-diffractive) lenses[J]. Optik - International Journal for Light and Electron Optics, 2014, 13(125):3380-3383. （SCI）

[3] Mu T , Zhang C , Li Q , et al. The polarization-difference interference imaging spectrometer-I. Concept, principle, and operation[J]. Acta Physica Sinica -Chinese Edition-, 2014, 63(11):110704. （SCI）

[4] Mu T , Zhang C , Li Q , et al. The polarization-difference interference imaging spectrometer-II. Optical design and analysis[J]. Acta Physica Sinica Chinese Edition, 2014, 63(11):110705. （SCI）

[5] Mu T, Zhang C, Li Q, Wei Y, Chen Q, Jia C. Snapshot full-Stokes imaging spectropolarimetry based on division-ofaperture polarimetry and integral-field spectroscopy[C]. SPIE, 2014. （EI）

2013年（共28篇，其中SCI收录26篇，EI收录2篇）：

[1] Zhang C, Ren W, Mu Tet al. Empirical mode decomposition based background removal and de-noising in polarization interference imaging spectrometer[J]. Opt Express, 2013,21(3):2592-2605. （SCI）

[2] Ren W, Zhang C, Mu Tet al. Empirical mode decomposition based background removal and de-noising in polarization interference imaging spectrometer: erratum[J]. Optics Express, 2013,21(8):10207. （SCI）

[3] Ren W , Zhang C , Jia C , et al. Precise spectrum reconstruction of the Fourier transforms imaging spectrometer based on polarization beam splitters[J]. Optics Letters, 2013, 38(8):1295-7. （SCI）

[4] Kang Y , Zhang C , Xue C , et al. Wannier stark ladder in one-dimensional photonic crystal coupled microcavity containing indefinite metamaterials[J]. Journal of Optics, 2013, 42(4):335-340. （SCI）

[5] Wang J, Zhang C, Zhang Let al. Complete optical throughput analysis of the static polarization wind imaging interferometer[J]. Appl Opt, 2013,52(11):2248-2256.（SCI）

[6] Gao, Peng, Zhang, et al. Multiple frequency bands of square split resonant rings and metal wire metamaterial[J]. Applied Optics, 2013, 52(52):6309-6315. （SCI）

[7] Zhang C, Lu L, Ai J. Modulation depth of static four-phase-divided wind imaging interferometer[J]. Appl Opt, 2013,52(18):4242-4248. （SCI）

[8] Gao P , Zhang C , Jia Z , et al. Multiple frequency bands of square split resonant rings and metal wire metamaterial: erratum[J]. Applied Optics, 2013, 52(31):7523. （SCI）

[9] Gao P , Zhang C , Ai J , et al. Measurement of negative refraction index from simulative results and experimental data by a new metamaterial sample[J]. Physica A Statal Mechanics & Its Applications, 2013, 392(24):6506-6511. （SCI）

[10] Zhang L , Zhang C , Ren W Y , et al. Feasibility analysis of an achromatic quarter wave plate in a static polarizing wind imaging interferometer[J]. Measurementence & Technology, 2013, 24(7):075801. （SCI）

[11] Ai J , Zhang C , Gao P , et al. Signal-to-noise ratio of the spatially modulated imaging spectrometer based on modified Sagnac interferometer[J]. Optics Communications, 2013, 298-299:46-53. （SCI）

[12] Mu T , Zhang C , Jia C , et al. Alignment and retardance errors, and compensation of a channeled spectropolarimeter[J]. Optics Communications, 2013, 294:88-95. （SCI）

[13] Zhang C, Cao Q, Jian Xet al. Image fusion of tempo-spatially modulated polarization interference imaging spectrometer[J]. Optics Communications, 2013,297:12-19. （SCI）

[14] Ai J , Zhang C , Gao P . Optical path difference and lateral displacement of Sagnac lateral shearing interferometer[J]. Journal of Modern Optics, 2013, 60(8):646-658. （SCI）

[15] Ai J, Zhang C, Gao Pet al. Modulation transfer function of a modified spatially modulated imaging interferometer[J]. Journal of Modern Optics, 2013,60(20):1750-1759. （SCI）

[16] Kang Y, Zhang C, et al. Electromagnetic resonance tunneling in a single-negative sandwich structure[J]. Journal of Modern Optics, 2013, 13(60):1021-1026. （SCI）

[17] Gao P , Zhang C , Zhang L , et al. Metamaterial composed of different cells exhibiting a negative refraction property over multiple frequency bands[J]. Journal of Modern Optics, 2013, 60(11):925-931. （SCI）

[18] Qu Y , Zhang C , Wang D , et al. Comparison of atmospheric CO2 observed by GOSAT and two ground stations in China[J]. International Journal of Remote Sensing, 2013, 34(11-12):3938-3946. （SCI）

[19] Zhang L , Zhang C , Jian X , et al. Multispectral color image composition of temporally and spatially mixed modulated polarization interference imaging spectrometer[J]. Optik - International Journal for Light and Electron Optics, 2013, 124(22):5837-5839. （SCI）

[20] Mu T , Zhang C . Models for polarization detection with the modified polarization interference imaging spectrometer[J]. Optik - International Journal for Light and Electron Optics, 2013, 124(7):661-665. （SCI）

[21] Zhu B , Zhang C , Zeng W , et al. Error analysis of the moving mirror tilting in Michelson wind imaging interferometer[J]. 2013, 124(16):2436-2442. （SCI）

[22] Kang Y , Zhang C . Resonant modes in photonic multiple quantum well structures with single-negative materials[J]. Optik - International Journal for Light and Electron Optics, 2013, 124(22):5430-5433. （SCI）

[23] Gao P , Zhang C , Ai J , et al. Metamaterial with negative refraction over wide frequency band[J]. Materials Research Innovations, 2014, 18(5):346-350. （SCI）

[24] Ai J , Zhang C , Jia C , et al. Optical throughput of the tempo-spatially modulated polarization interference imaging spectrometer[J]. Optik - International Journal for Light and Electron Optics, 2013, 124(22):5751-5755. （SCI）

[25] Zhang L , Zhang C , Ren W , et al. Effect of assembly error of polarization array on a Polarizing Atmospheric Michelson Interferometer[C].ISPDI 2013 - Fifth International Symposium on Photoelectronic Detection and Imaging. International Society for Optics and Photonics, 2013. （EI）

[26] Wang J , Zhang C , Ren W , et al. The influences of the wavelength bandwidth on the measured wind velocity and temperature in the static polarization wind imaging interferometer[J]. Optik - International Journal for Light and Electron Optics, 2013, 124(24):6932-6935. （SCI）

[27] Gao P, Zhang C. Double-passband refraction of metamaterials[J]. Optik - International Journal for Light and Electron Optics, 2013, 124(17):3053-3055. （SCI）

[28] Mu T, Zhang C, Ren W, Jia C, Zhang L, Li Q. Compact and static Fourier transform imaging spectropolarimeters using birefringent elements[C]. SPIE, 2013. （EI）

2012年（共19篇，其中SCI收录19篇，EI收录0篇）：

[1] Mu T, Zhang C, Jia C et al. Static hyperspectral imaging polarimeter for full linear Stokes parameters[J]. Optics Express, 2012,20(16):18194. （SCI）

[2] Mu T , Zhang C , Ren W , et al. Static polarization-difference interference imaging spectrometer[J]. Optics Letters, 2012, 37(17):3507-3509. （SCI）

[3] Ren W, Zhang C, Mu Tet al. Spectrum reconstruction based on the constrained optimal linear inverse methods[J]. Opt Lett, 2012,37(13):2580-2582. （SCI）

[4] Zhang C , Ai J , Gao P . Optical throughput of the Sagnac interferometer with a modified large optical path difference[J]. Appl Opt, 2012, 51(14):2693-2700. （SCI）

[5] Zhang C , Dai H , Mu T , et al. Effect and suppression of secondary fringes in FATWindII[J]. Applied Optics, 2012, 51(18):4186. （SCI）

[6] Cao Q , Zhang C , Dehoog E . Snapshot imaging polarimeter using modified Savart polariscopes[J]. Applied Optics, 2012, 51(24):5791-6. （SCI）

[7] Zhang C , Li Y . Influence of the tilting reflection mirror on the temperature and wind velocity retrieved by a polarizing atmospheric Michelson interferometer[J]. Applied Optics, 2012, 51(27):6508. （SCI）

[8] Zhu Y , Zhang C , Zhao B . Design and analysis of a novel noncollinear acousto-optic tunable filter[J]. Optics Communications, 2012, 285(9):2332-2334. （SCI）

[9] Kang Y , Zhang C , Mu T , et al. Resonant modes and inter-well coupling in photonic double quantum well structures with single-negative materials[J]. Optics Communications, 2012, 285(24):4821-4824. （SCI）

[10] Gao P, Zhang C. Resonant frequency of triangle split resonant rings[J]. Optical Engineering, 2012, 51(1):018001. （SCI）

[11] Zhang C, Zhu H, Wu H. Complete throughput analysis of the static four-phase-divided wind imaging interferometer[J]. Optical Engineering, 2012, 51(4):046202. （SCI）

[12] Zhang C , Zhu B , Zhu H , et al. Novel polarization atmosphere Michelson interferometer[J]. Optical Engineering, 2012, 51(10):101714-1. （SCI）

[13] Mu T , Zhang C . Models for polarization detection with the modified polarization interference imaging spectrometer[J]. Optik - International Journal for Light and Electron Optics, 2013, 124(7):661-665. （SCI）

[14] Zhu B , Zhang C , Zeng W , et al. Error analysis of the moving mirror tilting in Michelson wind imaging interferometer[J]. Optik - International Journal for Light and Electron Optics, 2013, 124(16):2436-2442.（SCI）

[15] 张宣妮, 张淳民. 静态偏振风成像干涉仪光传输特性和光通量改善[J]. 物理学报, 2012(10):228-238. （SCI）

[16] 祝宝辉, 张淳民, 简小华,等. 时空混合调制型偏振干涉成像光谱仪的全视场偏振信息探测研究[J]. 物理学报. （SCI）

[17] 代海山, 张淳民, 穆廷魁. 宽场、消色差、温度补偿风成像干涉仪中次级条纹研究[J]. 物理学报, 2012, 61(022):226-234. （SCI）

[18] Dai H, Zhang C, Mu T. Research of secondary fringes in field-widened achromatic, temperature-compensated wind imaging interferometer (FATWindII)[J]. Acta Physica Sinica, 2012, 61(22), 224201.  (SCI)

[19] Tang Q, Zhao B, Qiu Y, Zhang C, Mu T. Technology of polarization interference imaging spectral based on pupil division and angle shear[J]. Acta Physica Sinica, 2012, 61(23): 230701.  (SCI)

2011年（共18篇，其中SCI收录17篇，EI收录1篇）：

[1] Zhang C, Zhu H, Zhao B. The tempo-spatially modulated polarization atmosphere Michelson interferometer[J]. Opt Express, 2011,19(10):9626-9635. （SCI）

[2] Zhang C, Zhao J, Sun Y.  Influences of the thickness, misalignment, and dispersion of the Savart polariscope on the optical path difference and spectral resolution in the polarization interference imaging spectrometer[J]. Applied Optics, 2011, 50(20):3497. （SCI）

[3] Zhang C, Wu Q, Mu T. Influences of pyramid prism deflection on inversion of wind velocity and temperature in a novel static polarization wind imaging interferometer[J]. Applied optics. Optical technology and biomedical optics, 2011,50(32):6134. （SCI）

[4] Gao H , Zhang C , Zhao B . Relative calibration for a polarization interference imaging spectrometer[J]. Optics Communications, 2011, 284(12):2747-2750. （SCI）

[5] Mu T, Zhang C, Ren Wet al. Static dual-channel polarization imaging spectrometer for simultaneous acquisition of inphase and antiphase interference images[J]. Measurement science & technology, 2011,22(10):105302. （SCI）

[6] Zhang C, Ai J, Ren W. Exact calculation of the minimal thickness of the large optical path difference wind imaging interferometer[J]. Chinese Physics B, 2011,20(2):20701. （SCI）

[7] Mu T, Zhang C, Ren W et.al. Interferometric verification for the polarization imaging spectrometer[J]. Journal of Modern Optics, 2011,58(2):154-159. （SCI）

[8] Zhang C , Wu H , Li J . Fourier transform hyperspectral imaging polarimeter for remote sensing[J]. Optical Engineering, 2011, 50(6):066201-066201-5. （SCI）

[9] Zhang C, Mu T. Response to the comment on "Design and analysis of wide-field-of-view polarization imaging spectrometer"[J]. Optical Engineering, 2011, 50(4):258-258. （SCI）

[10] Zhang C , Bai X , Jing C , et al. Transmission ratio of the Glan–Taylor prism with deviated optical axes in the static polarization interference imaging spectrometer[J]. Optik , 2011, IJLEO-51391. （SCI）

[11] Jian X , Zhang C , Zhao B . Polarization detection with polarization interference imaging spectrometer[J]. Optik - International Journal for Light and Electron Optics, 2011, 122(8):677-680. （SCI）

[12] Gao H , Zhang C , Zhao B . A polarization interference imaging spectrometer and its calibration[J]. Optik - International Journal for Light and Electron Optics, 2011, 122(23):2110-2113. （SCI）

[13] 白鑫, 张淳民, 景春元,等. 干涉成像光谱仪光通量的计算与分析[J]. 物理学报, 2011(07):173-180. （SCI）

[14] 朱化春, 张淳民. 偏振风成像干涉仪多波长探测理论研究[J]. 物理学报, 2011, 60(7):331-337. （SCI）

[15] 穆廷魁, 张淳民, 任文艺,等. 偏振干涉成像光谱仪的视场展宽设计与分析[J]. 物理学报, 2011, 60(007):181-187. （SCI）

[16] Mu T, Zhang C. Dual-channel polarization imaging spectrometer[C], Proc. of SPIE,2011, 8032, 80320M:1-5. （EI）

[17] Zhang C, Wu Q, Mu T. Influences of the pyramid prism deflection on inversion of wind velocity and temperature in novel static polarization wind imaging interferometer[J]. Applied Optics, 2011, 50(32): 2333-2339.  (SCI)

[18] Mu T, Zhang C, Ren W, Zhang L Zhu B. Design and analysis of a polarization interference imaging spectrometer with expanded field of view[J]. Acta Physica Sinica, 2011, 60(7): 070704    (SCI)

2010年（共25篇，其中SCI收录25篇，EI收录0篇）：

[1] Jian X, Zhang C, Zhang L, et al. The data processing of the temporarily and spatially mixed modulated polarization interference imaging spectrometer[J]. Opt Express. 2010, 18(6): 5674-5680. （SCI）

[2] Zhang C, Jian X. Wide-spectrum reconstruction method for a birefringence interference imaging spectrometer[J]. Optics letters, 2010,35(3):366. （SCI）

[3] Zhang C, Yuan Z, Sun M, et al. Miniature periodic structures of left-handed materials[J]. Appl Opt. 2010, 49(3): 281-285. （SCI）

[4] Zhang C, Gao P, Sun M, et al. Analysis of the resonant frequency of the octagonal split resonant rings with metal wires[J]. Applied optics. Optical technology and biomedical optics. 2010, 49(29): 5638. （SCI）

[5] Zhang C, Gao P, Sun Met al. Analysis of the resonant frequency of the octagonal split resonant rings with metal wires[J]. Applied optics. Optical technology and biomedical optics, 2010,49(29):5638. （SCI）

[6] 吴俊芳, 张淳民. Relationship between incident angle and dispersion in static large field of view polarization interference imaging spectrometer[J]. Chinese Physics B, 2010(03):034201. （SCI）

[7] 穆廷魁, 张淳民. A novel polarization interferometer for measuring upper atmospheric winds[J]. Chinese Physics B, 2010(06):204-210. （SCI）

[8] Wu H Y , Zhang C M , Li J . A simple and effective model for Jones matrix to evaluate the transmission performance of Savart polariscope[J]. Chinese Physics B, 2010(11):381-388. （SCI）

[9] 张淳民, 任文艺, 穆廷魁. Effects of optical axis direction on optical path difference and lateral displacement of Savart polariscope[J]. Chinese Physics B, 2010(02):247-256. （SCI）

[10] Zhang C, Mu T, Ren W, Zhang  L, Liu N. Design and analysis of wide-field-of-view polarization imaging spectrometer[J]. Optical Engineering, 2010, 49(4):p.043002.1-043002.7. （SCI）

[11] Jian X, Zhang C, Zhao B. Polarization detection with polarization interference imaging spectrometer[J]. Optik, 2011,122(8):677-680. （SCI）

[12] 张淳民, 刘宁, 吴福全. 偏振干涉成像光谱仪中格兰-泰勒棱镜全视场角透过率的分析与计算[J]. 物理学报, 2010(02):257-265. （SCI）

[13] 张淳民, 朱兰艳. 新型偏振风成像干涉仪中偏振化方向对调制度和干涉强度的影响研究[J]. 物理学报, 2010(02):989-997. （SCI）

[14] 张淳民, 黃伟健, 赵葆常. 新型偏振干涉成像光谱仪噪声分析与评价[J]. 物理学报, 2010(08):311-318. （SCI）

[15] 张霖, 张淳民, 简小华. 高层大气风场洛伦兹光谱线型粒子辐射率探测研究[J]. 物理学报, 2010(02):207-214. （SCI）

[16] 孙尧, 张淳民, 杜娟,等. 一种基于新型偏振干涉成像光谱仪的目标偏振信息探测新方法[J]. 物理学报, 2010(6):3863-3870. （SCI）

[17] 朱化春, 张淳民, 简小华. 新型风成像干涉仪温度补偿理论研究[J]. 物理学报, 2010(02):893-898. （SCI）

[18] 刘宁, 张淳民, 王金婵,等. 新型静态偏振风成像干涉仪理论探测误差的分析与计算[J]. 物理学报, 2010(06):749-759. （SCI）

[19] 孙明昭, 张淳民, 宋晓平. 新型八边形谐振环金属线复合周期结构左手材料奇异性质研究[J]. 物理学报,2010，59（8）：5444-5449. （SCI）

[20] 王金婵, 张淳民, 赵葆常,等. 静态偏振风成像干涉仪中光在四面角锥棱镜中的传播规律研究[J]. 物理学报, 2010(03):1625-1631. （SCI）

[21] 简小华, 张淳民, 祝宝辉,等. 时空混合调制型偏振干涉成像光谱仪数据处理研究[J]. 物理学报, 2010(09):213-219. （SCI）

[22] 严新革, 张淳民, 赵葆常. 时空混合调制型偏振干涉成像光谱仪干涉图获取模式研究[J]. 物理学报, 2010(05):218-224. （SCI）

[23] Zhang C, Mu T, Ren W, Lin Zhang L, Liu N. Design and analysis of wide field of view polarization imaging spectrometer[J]. Optical Engineering, 2010, 49(4): 043002.  (SCI)

[24] Zhang C, Ren W, Mu T. Effects of optical axis directions on the optical path difference and lateral displacement of Savart polariscope[J]. Chinese Physics B,2010,19(2): 024202.  (SCI)

[25] Liu N, Zhang C, Wang J, Mu T. The theoretical measurement error of a novel static polarization wind imaging interferometer[J]. Acta Physica Sinica, 2010, 59(6): 4369-4379. (SCI)

2009年（共15篇，其中SCI收录14篇，EI收录1篇）：

[1] Zhang C M , Zhao B C , Yuan Z L , et al. Analysis of signal-to-noise ratio of an ultra-compact static polarization interference imaging spectrometer[J]. JOURNAL OF OPTICS A-PURE AND APPLIED OPTICS, 2009, 11(8):085401. （SCI）

[2] Mu, Tingkui, Zhang, Chunmin, Zhao, Baochang. Principle and analysis of a polarization imaging spectrometer[J]. Applied Optics, 2009, 48(12):2333. （SCI）

[3] Mu T , Zhang C , Zhao B . Analysis of a moderate resolution Fourier transform imaging spectrometer[J]. Optics Communications, 2009, 282(9):1699-1705. （SCI）

[4] Mu T , Zhang C , Zhao B . Optical path difference evaluation of the polarization interference imaging spectrometer[J]. Optics Communications, 2009, 282(10):1984-1992. （SCI）

[5] Wen-Yi R, Chun-Min Z, Ting-Kui M. Application of Equivalent Air Gap Method in Uniaxial Crystal Plate[J]. Chinese Physics Letters, 2009,26(8):84209. （SCI）

[6] Bu Z, Zhang C, Zhao B. A static and divided mirror Michelson interferometer for measuring atmospheric winds[C]. SPIE, 2008. （EI）

[7] 简小华,张淳民,祝宝辉,赵葆常,杜娟. 利用偏振干涉成像光谱仪进行偏振探测的新方法[J]. 物理学报(12):7565-7570. （SCI）

[8] 简小华, 张淳民, 赵葆常,等. 利用偏振干涉成像光谱仪进行偏振检测的最佳角度分析[J]. 物理学报, 2009(04):2286-2293. （SCI）

[9] 张淳民, 孙明昭, 袁志林,等.基于三角谐振环的新型六边形谐振环金属线复合周期结构左手材料性质研究[J]. 物理学报, 2009, 58(003):1758-1764. （SCI）

[10] 步志超, 张淳民, 赵葆常,等. 大视场消色差温度补偿型风成像干涉仪调制度的分析与计算[J]. 物理学报, 2009(04):2415-2422. （SCI）

[11] 吴海英, 张淳民, 赵葆常等. 改型Wollaston棱镜的光程差及其特性分析[J]. 物理学报, 2009,58(03):1642-1647. （SCI）

[12] 吴海英, 张淳民, 赵葆常. 基于组合Wollaston棱镜成像光谱仪的视场扩大原理分析[J]. 物理学报, 2009,58(02):930-935. （SCI）

[13] 穆廷魁, 张淳民, 赵葆常. 偏振干涉成像光谱仪中Wollaston棱镜光程差及条纹定位面的精确计算与分析[J]. 物理学报, 2009,58(06):3877-3886. （SCI）

[14] 孙明昭, 张淳民, 宋晓平,等.基于矩形谐振环的新型复合周期结构左手材料研究[J]. 物理学报, 2009, 58(009):6179-6184. （SCI）

[15] Mu T , Zhang C , Zhao B. Analysis of Novel Moderate Resolution Imaging Spectrometer[J]. Optics Communications, 2009, 282(9): 1699-1705.   (SCI)

2008年（共8篇，其中SCI收录8篇，EI收录0篇）：

[1] Zhang C M , Yan X G , Zhao B . A novel model for obtaining interferogram and spectrum based on the temporarily and spatially mixed modulated polarization interference imaging spectrometer[J]. Optics Communications, 2008, 281(8):2050-2056. （SCI）

[2] Jian X , Zhang C , Zhao B , et al. The application of MUSIC algorithm in spectrum reconstruction and interferogram processing[J]. Optics Communications, 2008, 281(9):2424-2428. （SCI）

[3] 叶剑勇, 张淳民, 赵葆常,等. 高层大气风场四强度测量法误差分析与计算[J]. 物理学报, 2008, 057(001):67-73. （SCI）

[4] 吴海英, 张淳民, 赵葆常. 新型偏振干涉成像光谱仪中格兰-泰勒棱镜像质分析与评价[J]. 物理学报, 2008(06):3499-3505. （SCI）

[5] 查新未, 张淳民. 利用一个三粒子W态隐形传送N粒子GHZ态[J]. 物理学报, 2008, 057(003):1339-1342. （SCI）

[6] 阮锴, 张淳民, 赵葆常. 高层大气风场探测改型大光程差Sagnac干涉仪全视场角光程差与横向剪切量的精确计算[J]. 物理学报, 2008, 57(009):5435-5441. （SCI）

[7] 杜娟, 张淳民, 赵葆常,等. 稳态大视场偏振干涉成像光谱仪中视场补偿型Savart偏光镜透射率研究[J]. 物理学报, 2008(10):281-288. （SCI）

[8] 简小华,张淳民,祝宝辉,赵葆常,杜娟. 利用偏振干涉成像光谱仪进行偏振探测的新方法[J]. 物理学报(12):7565-7570. （SCI）

2007年（共13篇，其中SCI收录3篇，EI收录7篇）：

[1] Wu L , Zhang C , Zhao B . Analysis of the lateral displacement and optical path difference in wide-field-of-view polarization interference imaging spectrometer[J]. Optics Communications, 2007, 273(1):67-73. （SCI）

[2] Zhang C, Zhao B, Li Y et.al. Novel imaging interferometer for upper high-speed atmospheric wind field survey, 2007[C]. SPIE, 2007. （EI）

[3] Tang Y, Chen G, Zhang C et.al. Optimization of the modified Sagnac imaging interferometer for full compensation, 2007[C]. SPIE, 2007. （EI）

[4] 简小华, 张淳民, 赵葆常. 研究干涉图处理与光谱复原的一种新方法[J]. 物理学报, 2007(02):236-241. （SCI）

[5] 袁志林, 张淳民, 赵葆常. 新型偏振干涉成像光谱仪信噪比研究[J]. 物理学报, 2007(11):251-257. （SCI）

[6] 贺健, 张淳民, 张庆国. 佛克脱光谱线型干涉图的理论及其应用研究[J]. 光谱学与光谱分析, 2007(03):9-12. （EI）

[7] 简小华, 张淳民, 孙尧,等. 一种可调横向剪切量的新型偏振干涉成像光谱仪[J]. 光学学报, 2007(04):643-646. （EI）

[8] 叶剑勇, 张淳民, 赵葆常,等. 大气风场探测萨尼亚克干涉仪光程差的计算及探测模式研究[J]. 光学学报, 2007(07):7-12. （EI）

[9] 汪丽, 赵葆常, 相里斌,等. 迈克尔逊风场干涉仪基准光程差及步长误差容限分析[J]. 光子学报, 2007(09):139-142. （EI）

[10] 唐远河, 陈光德, 赵振宇,等. 改型萨尼亚克成像干涉仪的光通量[J]. 光学学报, 2007, 27(008):1490-1493. （EI）

[11] 王怀军, 李维民, 张淳民,等. 应用业务预测的动态带宽分配算法[J]. 光电工程, 2007(05):117-120.

[12] 洪新华, 梁云杰, 殷世民,等. 光谱仪焦平面阵列非均匀性校正的研究[J]. 河南师范大学学报(自然版), 2007, 35(004):62-65.

[13] 穆廷魁, 李国华, 彭捍东. 高消光比测试系统衰减器的研究[J].激光技术, 2007, 31(1): 71-73.

2006年（共23篇，其中SCI收录4篇，EI收录5篇）：

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

[2] He J, Zhang C. The accurate calculation of the Fourier transform of the pure Voigt function[J]. Journal of Optics A: Pure and Applied Optics, 2005,7(10):613-616. （SCI）

[3] Zhang C, Zhao B, Xiangli Bet al. Interference image spectroscopy for upper atmospheric wind field measurement[J]. Optik, 2006,117(6):265-270. （SCI）

[4] Zhang C , Zhao B , Xiangli B , et al. Birefringent laterally sheared beam splitter-Savart polariscope[C].2nd International Symposium on Advanced Optical Manufacturing and Testing Technologies: Optical Test and Measurement Technology and Equipment. International Society for Optics and Photonics, 2006. （EI）

[5] Zhang C, Zhao B, Li Yet al. Novel imaging interferometer for upper high-speed atmospheric wind field survey, 2007[C]. SPIE, 2007. （EI）

[6] Zhang C, Zhao B, Yuan Y, He J. Analysis of the Throughput of onboard Polarization Interference Imaging Spectrometer[C]. Proceedings of 20th Congress of the International Commission for Optics.2005:4693-4698. （EI）

[7] Su X , Tian W J , Zhang C M . Analysis of off-focus of linear-array pinholes in novel microscopical imaging spectrometer[J]. Guangxue Jishu/Optical Technique.

[8] 彭志红, 张淳民, 赵葆常,等. 新型偏振干涉成像光谱仪中Savart偏光镜透射率的研究[J]. 物理学报, 2006(12):183-190. （SCI）

[9] 彭志红, 张淳民. 显微偏振干涉成像光谱仪中景深对系统分辨力的影响[J]. 光学学报, 2006(02):239-243. （EI）

[10] 吴俊芳, 张淳民. 自旋梯可积模型的研究[J]. 计算物理, 2006, 23(2):189-192.

[11] 查新未, 张淳民. 三体纯态的纠缠度及其分类[J]. 西安交通大学学报, 2006, 40(002):243-245.

[12] 唐远河, 张淳民, 陈光德,等. 星载超广角改形Sagnac干涉仪的自推扫探测大气风场[J]. 自然科学进展, 2006, 16(011):1491-1495.

[13] 苏星, 田维坚, 张淳民. 新型显微成像光谱仪系统中线阵针孔离焦研究[J]. 光学技术, 2006(05):90-92+95.

[14] 苏星, 田维坚, 张淳民. 显微成像光谱仪技术的研究及应用[J]. 光学技术, 2006, 32(006):820-823.

[15] 陈福都, 李维民, 张淳民, et al. 基于小波变换的GPON动态带宽分配算法研究[J]. 空军工程大学学报·自然科学版, 2006, 7(5):42-44.

[16] 汪丽, 赵葆常, 相里斌,等. 风场探测干涉仪中基准光程差的选择原理[J]. 光子学报, 2006, 035(008):1254-1258. （EI）

[17] 张丽娟, 李维民, 张淳民,等. OBS网络中竞争解决机制研究[J]. 光通信技术, 2006(07):24-26.

[18] 陈福都, 李维民, 张淳民,等. 一种改进的GPON动态带宽分配策略[J]. 光通信技术, 2006(07):18-20.

[19] 张丽娟, 李维民, 张淳民,等. 一种用于解决OBS网中资源竞争的新机制[J]. 光通信研究, 2006, 000(006):8-10.

[20] 穆廷魁, 李国华, 宋连科. 石英波片相位延迟随温度的变化行为[J]. 中国激光,2006,33(7),: 949-952.

[21] 穆廷魁, 李国华, 彭捍东, 吴福全, 宋连科, 郝殿中.测试消光比的衰减系统研究[J].光电子·激光, 2006, 17(11): 1366-1368.

[22] 穆廷魁, 李国华, 郝殿中.宽调谐双折射滤光片最佳透射系统研究[J]. 激光技术, 2006, 30(5): 520-522.

[23] 李国良, 宋连科, 郝殿中, 周文平, 王静, 穆廷魁. 菱体型消色差延迟器的优化设计[J].激光技术, 2006, 30(5): 539-540.

2005年(共9篇，其中SCI收录3篇，EI收录4篇)：

[1] Jun-Fang W, Chun-Min Z, Rui-Hong Y, et al. Nested Bethe Ansatz for Spin Ladder Model with Open Boundary Conditions[J]. Communications in Theoretical Physics, 2005, 43(4):687-694. （SCI）

[2] He J, Zhang C. The accurate calculation of the Fourier transform of the pure Voigt function[J]. Journal of Optics A: Pure and Applied Optics, 2005,7(10):613-616. （SCI）

[3] 唐远河, 张淳民, 刘汉臣等. 基于镀膜四面角锥棱镜技术的上层大气风场探测研究[J]. 物理学报, 2005(09):4065-4071. （SCI）

[4] 贺健, 张淳民, 唐远河,等. 洛伦兹光谱线型的高层大气风场被动探测原理分析[J]. 光学学报, 2005(05):2-5. （EI）

[5] 唐远河, 张淳民, 贺健, et al. 基于洛伦兹线型极光的上层大气风场探测模式研究[J]. 光学学报, 2005(06):3-7. （EI）

[6] 吴磊, 张淳民, 袁艳,等. 萨伐尔偏光镜横向剪切量和光程差的精确计算[J]. 光学学报, 2005, 25(7):885-890. （EI）

[7] 唐远河, 张淳民, 陈光德等. 卫星遥感探测上层大气风场的关键技术研究进展[J]. 物理学进展, 2005(02):142-152.

[8] 仇浩, 张淳民. 关于高速运动物体视觉形象的讨论[J]. 大学物理, 2005, 24(4).

[9] Xing. Su a,b and Weijian. Tian a and Chunmin. Zhang. Analysis of the effect on tissue autofluorescence detection from off-focus of Linear-array pinholes in LP-Laser Scanning Confocal fluorescence Microscopical Imaging Spectrometer[C].Proceedings of 20th Congress of the International Commission for Optics,2005:1369-1375. （EI）

2004年(共7篇，其中SCI收录2篇，EI收录2篇)：

[1] Zhang C , Zhao B , Xiangli B . Wide-Field-of-View Polarization Interference Imaging Spectrometer[J]. Applied Optics, 2004, 43(33):6090-0. （SCI）

[2] Zhang C , Xiangli B , Zhao B . Permissible deviations of the polarization orientation in the polarization imaging spectrometer[J]. JOURNAL OF OPTICS A-PURE AND APPLIED OPTICS, 2004, 6(8):815-817. （SCI）

[3] 贺健, 张淳民, 唐远河,等. 洛仑兹光谱线型的上层大气风场被动探测[C].大珩先生九十华诞文集暨中国光学学会学术大会. 2004. （EI）

[4] 严新革, 张淳民. ISODATA和模糊K均值算法在图像分割中的应用[C].大珩先生九十华诞文集暨中国光学学会2004年学术大会论文集. 2004. （EI）

[5] 张淳民, 相里斌, 赵葆常,等. 偏振成像光谱仪中偏振化取向的允差偏角[C]. 中国光学学会学术大会. 2004. （EI）

[6] 唐远河, 张淳民, 陈光德, et al. 上层大气风场探测中两视场的延时研究[C].中国光学学会学术大会. 2004. （EI）

[7] He T Y , De C G , Min Z C , et al. O(Ⅰ, Ⅱ) Forbidden Lines Aurora and Their Photochemical Reaction[J]. Chinese Journal of Luminescence, 2005. （SCI）

2003年(共4篇，其中SCI收录1篇，EI收录1篇)：

[1] Zhang C , Zhao B , Xiangli B , et al. Analysis of the modulation depth affected by the polarization orientation in polarization interference imaging spectrometers[J]. Optics Communications, 2003, 227(4-6):221-225. （SCI）

[2] Tian Xiulao, Zhang Chunmin. N维各向同性谐振子四类升降算子的归一化系数[J]. 光子学报, 31(12). （EI）

[3] 查新未,张淳民. 量子纠缠态及可分离态判据[J]. 西安交通大学学报(7):769-770.

[4] Wei Z X , Min Z C . New theory of quantum entanglement[J]. Journal of Shaanxi Normal University(Natural ence Edition), 2003.

2002年(共1篇，EI收录1篇)：

[1] Zhang C , Xiangli B , Zhao B , et al. A static polarization imaging spectrometer based on a Savart polariscope[J]. Optics Communications, 2002, 203(1-2):21-26. （SCI）

2001年(共1篇，EI收录1篇)：

[1] 张淳民, 赵葆常, 相里斌,等. 偏振干涉成像光谱仪通量的分析与计算[J]. 光学学报, 2001. （EI）

2000年(共4篇，其中SCI收录0篇，EI收录4篇)：

[1] Zhang C , Bin X , Zhao B . Static polarization interference imaging spectrometer (SPIIS)[J]. Proceedings of Spie the International Society for Optical Engineering, 2000. （EI）

[2] 张淳民, 王炜, 相里斌,等. 利用干涉成像光谱技术测量大气风场[J]. 光学学报, 2000(02):234-239. （EI）

[3] 张淳民, 赵葆常, 相里斌. 高稳定度大视场大气风场测量新方法[J]. 光学学报, 2000(05):697-700. （EI）

[4] 张淳民, 赵葆常, 相里斌. 偏振干涉成像光谱仪中偏振化方向对调制度的影响[J]. 光学学报, 2000(08):71-77.（EI）