汪盛佳

汪盛佳，博士，副教授，黑龙江省优青，入选第二批黑龙江省高层次人才。现任黑龙江省光学学会副秘书长，哈尔滨工程大学光子中心副主任，2020级陈赓班（校理科试验班）班主任。2020年于德国慕尼黑工业大学TUM取得博士学位，在光学领域具有多年的研究和教学经验，提出了光学系统中的可调孔径复用技术和双横向电光调制技术，和用于微分相衬干涉显微成像的三合一相位掩模技术。长期从事计算成像、光电检测、集成光学、天文光谱等方面的研究。曾出访丹麦技术大学DTU交流访问。相关发表物（含会议及专利）60余项，SCI检索论文50余篇，JCR一区论文10余篇。现担任SCI源Symmetry杂志客座编辑，MDPI Sensors评审委员会委员，教育部学位论文评审专家，Optics Express, Optics Letters, Review of Scientific Instruments等业内知名学术期刊的审稿人。

Details available at ORCID (link) and ResearchGate (link).

Stand: April 10, 2024

2015 - 2020 慕尼黑工业大学 TUM 工学博士
2018 - 2018 丹麦技术大学 DTU 访问学者
2012 - 2015 北京交通大学 BJTU 工学硕士
2008 - 2012 北京交通大学 BJTU 理学学士

2020至今 哈尔滨工程大学 HEU 副教授
2020至今 哈尔滨工程大学 光子科学与技术中心 副主任
2022至2023 哈尔滨工程大学 科学技术研究院 院长助理

光学成像、相位测量、光电检测、集成光学、计算光学。

[6] 用于光学自由曲面检测的空间随机复用衍射透镜剪切干涉技术研究，2024.1-2026.12，国家自然科学基金（青年），负责人
[5] 高动态三维变形可视化测量关键技术研究，2022.7-2025.7，黑龙江省自然科学基金优秀青年基金，负责人
[4] 基于光测方法的毁伤侵彻测量技术研究，2022.7-2023.7，某委创新工作站基金项目，负责人
[3] 基于聚合物一维光子晶体的BTEX气体与水蒸气传感器研究，2021.7-2025.7，黑龙江省自然科学基金，主要参与人
[2] 现场多参量光学干涉技术研究，2021.1-2021.12，中央高校基本科研业务费（新教师启动计划），负责人
[1] 面向片上光谱仪的光子集成技术研究，2020.1-2020.12，中央高校基本科研业务费（自由探索计划），负责人

与德国慕尼黑工业大学、英国帝国理工、丹麦科技大学、西班牙马德里理工大学等海内外知名院所有长期稳定的交流合作。

招收光学和光学工程方向研究生，欢迎来自光电信息科学与工程、物理学、电子信息等相关学科和专业的同学报考。
欢迎各位同学通过邮箱联系 shengjia.wang@hrbeu.edu.cn

信息光学（省精品课）
大学物理

省部级教改项目：
[3] 教育部产学合作协同育人项目《特色化光电专业中案例式实践性教学环节的建设与探索》，ID：231104090281434，主要参与人（第三）；
[2] 教育部产学合作协同育人项目《三海一核行业特色型光电专业师资队伍建设》，ID：220402116294255，项目负责人；
[1] 教育部高等学校电子信息类专业教学指导委员会光电信息科学与工程专业教学指导分委员会2020年“一流课程与一流专业建设” 教育教学研究项目《基于大实验班的光电专业人才选拔方案的建设与研究》，ID：2020SYL8，主要参与人（第二）；

校级教改项目：
[2] 《面向行业特色的“高等物理光学”课程改革研究》，ID：JG2022Y059，项目负责人；
[1] 《“现代光学设计及仪器”课程中案例式教学方法研究》，ID：JG2022Y061，主要参与人（第二）；

[3] 孙伟民, 张英华, 耿涛, 闫奇, 陈旭东, 金夕人, 陈龙震, 朱清柱, 王佳斌, 严云翔, 汪盛佳. 一种用于日冕观测的扇形微透镜阵列, ZL2020104984630, 20221028.
[2] 隆永胜, 汪盛佳, 杨建军, 王磊, 韩新星. 一种基于空间相移的散斑干涉烧蚀测量系统及方法, ZL2021106540249, 20220902.
[1] Z. Gao, J. Qin, Q. Feng, Shengjia Wang, X. Wang, S. Yang, and C. Gao. Method for full-field measurement using dynamic laser doppler imaging, US10883817B2, 20210105.

Stand: Jun 25, 2024
发表SCI检索论文50余篇，其中JCR分区Q1区论文10余篇。
Details available at ORCID (link) and ResearchGate (link).

Current year 2024:
[54] J. Wang, Y. Kou, A. Wang, C. Niu, Y. Zhao, X. Yang, Shengjia Wang, C. Lu, T. Geng, and W. Sun, "Laser-induced micro-cavity on a fiber end with a harmonic-Vernier effect for salinity sensing," Sensors and Actuators A: Physical 376, 115603 (2024). DOI: 10.1016/j.sna.2024.115603 (SCI, JCR Q1)
[53] A. Wang, J. Wang, Z. Gan, X. Yang, Y. Yan, Shengjia Wang, Q. Yan, T. Geng, P. Wang, S. Chen, and W. Sun, "SMART: Special-shaped Micro-lens Aimer for Real-time Targeting of multi-object telescopes," Astronomy & Astrophysics 684 A183(2024). DOI: 10.1051/0004-6361/202348346 (SCI, JCR Q1)
[52] Shengjia Wang, P. Shi, J. Xiong, Y. Feng, P. Huang, B. Dong, Q. Chang, J. Wang, S. G. Hanson, and S. Gao, "Single-shot time-averaged shearography for vibration strain mode shape visualization," IEEE Sensors Journal 24(7) 9639-9646(2024). DOI: 10.1109/JSEN.2024.3366914 (SCI, JCR Q1)
[51] S. Gao, J. Xiong, A. K. Yetisen, F. Salazar-Bloise, A. W. Koch, X. Yang,and Shengjia Wang*, "Vector Differential Interference Contrast Microscopy Based on a 3-in-1 Phase Mask through a Dynamic Diffractive Optical Element" ACS Photonics 11(1) 276-285(2024). DOI: 10.1021/acsphotonics.3c01459 (SCI, JCR Q1, TOP)
[50] S. Gao, P. Huang, J. Xiong, B. Dong, J. Wang, Z. Gao, and Shengjia Wang*, "Dual transverse electro-optic effect enables heterodyne differential interference contrast imaging," IEEE Photonics Technology Letters 36(2) 67-70(2024). DOI: 10.1109/LPT.2023.3334720 (SCI, JCR Q3)

Previous:
[49] A. Wang, J. Wang, Z. Gan, Y. Yan, Shengjia Wang, Q. Yan, T. Geng, S. Chen, P. Wang, W. Sun, "A real-time aimer based on special-shaped microlens and optical fiber bundle," Proc. SPIE 12764, 127640N(2023). DOI: 110.1117/12.2689239
[48] B. He, Z. Chen, J. Wang, L. Wang, W. Hao, H. Yang, Shengjia Wang, T. Geng, Y. Song, E. Lewis, W. Sun, "An optical fiber x-ray sensing array for small-field radiotherapy," Proc. SPIE 12770, 127703E(2023). DOI: 10.1117/12.2689094
[47] J. Zhao, Z. Gao, Shengjia Wang, Y. Niu, L. Deng, and Y. Sa, "Multi-object deep-field digital holographic imaging based on inverse cross-correlation," Applied Sciences 13(20), 11430(2023). DOI: 10.3390/app132011430 (SCI, JCR Q2)
[46] Shengjia Wang, Y. Feng, S. Gao, P. Shi, J. Xiong, P. Huang, J. Wang, Z. Gao, S. Wu, and W. Sun, "Fiber-coupled common-path shearography for simultaneous measurement of surface deformation and slope," IEEE Sensors Journal 23(15), 16721-16728(2023). DOI: 10.1109/JSEN.2023.3289816 (SCI, JCR Q1)
[45] W. Sun, X. Chen, Q. Yan, T. Geng, Y. Yan, Shengjia Wang, A. Wang, J. Wang, X. Jin, H. Jiang, X. Wang, C. Zhao, Y. Zhong, Y. Liang, Z. Song, and P. Wang, "Fiber integral field unit system for measurement of solar spectrum," Spectroscopy and Spectral Analysis 43(4), 1168-1174(2023). DOI: 10.3964/j.issn.1000-0593(2023)04-1168-07 (SCI, JCR Q4)
[44] J. Wang, A. Wang, X. Yang, Shengjia Wang, X. Zeng, J. Hao, J. Zhou, Y. Kou, C. Niu, T. Geng, and W. Sun, "Exoskeleton type long-period fiber grating for cross-talk-resistance single-parameter measurement," Optics Letters 48(5), 1271-1275(2023). DOI: 10.1364/OL.482549 (SCI, JCR Q1)
[43] W. Xiong, Shengjia Wang*, S. Gao, Z. Gao, H. Tang, A. W. Koch, S. Wu, and W. Sun, "Complex amplitude domain filtering for phase measurement in speckle interferometric optics," Optics Communications 534, 129328(2023). DOI: 10.1016/j.optcom.2023.129328 (SCI, JCR Q3)
[42] Y. Niu, Z. Gao, J. Zhao, L. Deng, Y. Sa, and Shengjia Wang, "An improving method of imaging through scattering medium under strong background illumination," Measurement 210, 112548(2023). DOI: 10.1016/j.measurement.2023.112548 (SCI, JCR Q1)
[41] S. Gao, W. Xiong, Q. Shao, P. Huang, Y. Feng, P. Shi, J. Xiong, A. W. Koch, Y. Lu, and Shengjia Wang*, "Co-linear common-path shearography with a zero-approaching shear amount and separate control of the spatial carrier for single-shot phase measurement," Optics Express 31(2), 2248-2260(2023). DOI: 10.1364/OE.479830 (SCI, JCR Q2)

[40] Z. Xiang, C. Lu, Shengjia Wang, Z. Rui, F. Zeng, Y. Wang, C. Sun, X. Jin, S. Li, and T. Geng, "Highly sensitive RI sensor based on a D-shaped single-mode-graded-index multimode-single-mode fiber structure," Applied Physics B 129, 21(2023). DOI: 10.1007/s00340-022-07967-9 (SCI, JCR Q3)

[39] A. Wang, J. Wang, X. Yang, Shengjia Wang, Y. Yan, Q. Yan, C. Lu, S. Li, T. Geng, W. Sun, S. Chen, Y. Zhong, Z. Xu, and Z. Qu, "A Fast and High-precision Alignment Method for IFU Based on Optical Interferometry and Fresnel Diffraction," Publications of the Astronomical Society of the Pacific 134, 104503 (2022). DOI: 10.1088/1538-3873/ac8d2d (SCI, JCR Q1)
[38] Shengjia Wang, S. Gao, H. Tang, W. Xiong, Y. Yan, T. Geng, A. W. Koch, F. Salazar-Bloise, Z. Gao, and W. Sun, "Super-compact shearography based on a single diffractive optical element with 3-in-1 phase mask," Optics Letters 47(20), 5409-5412(2022). DOI: 10.1364/OL.474519 (SCI, JCR Q1)
[37] J. Wang, A. Wang, X. Chen, S. Liu, X. Xun, C. Sun, Y. Yan, Q. Yan, Shengjia Wang, T. Geng, and W. Sun, "An All Fiber Mach-Zehnder Interferometer Based on Tapering Core-offset Joint for Strain Sensing," IEEE Photonics Technology Letters 34(1), 11-14(2022). DOI: 10.1109/LPT.2021.3132663 (SCI, JCR Q1)
[36] S. Wang, Y. Ma, W. Chen, Shengjia Wang, Y. Yi, X. Li, C. Lu, S. Zhang, T. Geng, W. Sun, and Libo Yuan, "Ultrasensitive strain sensor based on Mach-Zehnder interferometer with bent structures," Journal of Lightwave Technology 39(21), 6958-6967(2021). DOI: 10.1109/JLT.2021.3109063 (SCI, JCR Q1)
[35] H. Niu, S. Zhang, W. Chen, Y. Liu, X. Li, Y. Yan, Shengjia Wang, T. Geng, W. Sun, and L. Yuan, "Optical Fiber Sensors Based on Core-Offset Structure: A Review," IEEE Sensors Journal 21(20), 22388-22401 (2021). DOI: 10.1109/JSEN.2021.3110852 (SCI, JCR Q2)
[34] S. Zhang, X. Li, Y. Liu, W. Chen, H. Niu, Q. Yan, Shengjia Wang, S. Li, T. Geng, W. Sun, and L. Yuan, "A MMF-TSMF-MMF Structure Coated Magnetic Fluid for Magnetic Field Measurement," IEEE Photonics Technology Letters 33(19), 1105-1108 (2021). DOI: 10.1109/LPT.2021.3106146 (SCI, JCR Q1)
[33] C. Lu, X. Jin, Shengjia Wang, Z. Xiang, C. Sun, X. Chen, Y. Ma, Q. Zhu, C. Tong, T. Geng, W. Sun, and L. Yuan, "High Torsion Sensitivity Sensor Based on LPFG With Unique Geometric Structure," IEEE Sensors Journal 21(5), 6217-6223 (2021). DOI: 10.1109/JSEN.2020.3043463 (SCI, JCR Q2)
[32] W. Sun, X. Chen, T. Geng, Q. Yan, X. Jin, J. Wang, H. Jiang, A. Wang, Y. Yan, Shengjia Wang, X. Bai, L. Chen, Y. Zhang, Q. Zhu, S. Liu, Y. Li, and P. Wang, "An integrated field unit with thousands of optical fibers for a solar telescope," Proc. SPIE 11451, 1145164(2020). DOI: 10.1117/12.2562291
[31] S. Zhang, Z. Wang, M. Zhu, L. Li, Shengjia Wang, S. Li, F. Peng, H. Niu, X. Li, S. Deng, T. Geng, W. Yang, and L. Yuan, "A compact refractive index sensor with high sensitivity based on multimode interference," Sensors and Actuators A: Physical 315, 112360 (2020). DOI: 10.1016/j.sna.2020.112360 (SCI, JCR Q1)
[30] S. Zhang, T. Geng, Shengjia Wang, H. Niu, X. Li, S. Deng, Z. Wang, C. Sun, Y. Ma, W. Yang, W. Sun, and L. Yuan, "High-sensitivity strain and temperature simultaneous measurement sensor based on multimode fiber chirped long-period grating," IEEE Sensors Journal 20(24), 14843-14849 (2020). DOI: 10.1109/JSEN.2020.3010071 (SCI, JCR Q2)
[29] Y. Ma, Shengjia Wang, X. Li, Y. Li, S. Wang, Y. Li, T. Geng, H. Zhu, C. Sun, S. Zhang, Y. Li, L. Yuan, "Torsion and temperature sensor based on polished MSM structure," IEEE Photonics Technology Letters 32, 1117-1120 (2020). DOI: 10.1109/LPT.2020.3013855 (SCI, JCR Q2)
[28] Y. Ma, X. Li, S. Wang, Y. Yi, X. Chen, S. Zhang, Shengjia Wang, T. Geng, C. Tong, W. Sun, and L. Yuan, "Highly sensitive strain sensor based on a long-period fiber grating with chain-shaped structure," Applied Optics 59, 10278-10282 (2020). DOI: 10.1364/AO.404861 (SCI, JCR Q2)
[27] S. Zhang, T. Geng, H. Niu, X. Li, Y. Yan, C. Sun, S. Deng, Z. Wang, Shengjia Wang, W. Yang, W. Sun, and L. Yuan, "All fiber compact bending sensor with high sensitivity based on a multimode fiber embedded chirped long-period grating," Optics Letters 45, 4172-4175 (2020). DOI: 10.1364/OL.396301 (SCI, JCR Q1)
[26] J. Dong, Shengjia Wang, A. K. Yetisen, X. Dong, F. Pöller, N. Ong, M. Jakobi, Z. Liu, F. Salazar-Bloise, and A. W. Koch, "Shear-unlimited common-path speckle interferometer," Optics Letters 45, 1305-1308 (2020). DOI: 10.1364/OL.382893 (SCI, JCR Q1)
[25] X. Dong, J. Dong, A. K. Yetisen, M. H. Köhler, Shengjia Wang, M, Jakobi, and A. W. Koch, "Characterization and layer thickness mapping of two-dimensional MoS₂ flakes via hyperspectral line-scanning microscopy,” Applied Physics Express 12, 102004 (2019). DOI: 10.7567/1882-0786/ab3e51 (SCI, JCR Q2)
[24] X. Dong, A. K. Yetisen, M. H. Köhler, J. Dong, Shengjia Wang, M. Jakobi, X. Zhang,and A. W. Koch, "Microscale Spectroscopic Mapping of Two-Dimensional Optical Materials," Advanced Optical Materials, 1900324 (2019). DOI: 10.1002/adom.201900324 (SCI, JCR Q1)
[23] F. Pöller, F. Salazar Bloise, M. Jakobi, Shengjia Wang, J. Dong, A. W. Koch, "Non-contact Roughness Measurement in Sub-micron Range by Considering Depolarization Effects," Sensors 19, 2215 (2019). DOI: 10.3390/s19102215 (SCI, JCR Q1)
[22] Shengjia Wang*, J. Dong, F. Pöller, X. Dong, M. Lu, L. M. Bilgeri, M. Jakobi, F. Salazar-Bloise, and A. W. Koch, "Dual-directional shearography based on a modified common-path configuration using spatial phase shift," Applied Optics 58, 593-603 (2019). DOI: 10.1364/AO.58.000593 (SCI, JCR Q2) [selected as Editors' Pick]
[21] J. Dong, Shengjia Wang, M. Lu, M. Jakobi, Z. Liu, X. Dong, F. Pöller, L. M. Bilgeri, F. Salazar Bloise, A. K. Yetisen, and A. W. Koch, "Real-time dual-sensitive shearography for simultaneous in-plane and out-of-plane strain measurements," Optics Express 27, 3276-3283 (2019). DOI: 10.1364/OE.27.003276 (SCI, JCR Q1)
[20] C. Zhong, Z. Gao, X. Wang, C. Gao, S. Yang, X. Sun, X. Wen, Z. Feng, and Shengjia Wang, "The machine learning method of phase extraction in interferometry," Optics and Lasers in Engineering 110, 384-391 (2018). DOI: 10.1016/j.optlaseng.2018.06.021 (SCI, JCR Q1)
[19] Shengjia Wang, "A method and device for obtaining a phase shifted shearogram for shearography," European and International Patent, EP 3 382 331 & WO2018178064, published on 03.10.2018. Available at: European Patent Office (EPO)
[18] X. Wang, Z. Gao, S. Yang, C. Gao, X. Sun, X. Wen, Z. Feng, Shengjia Wang, and Y. Fan, "Application of digital shearing speckle pattern interferometry for thermal stress," Measurement 125, 11-18 (2018). DOI: 10.1016/j.measurement.2018.04.073 (SCI, JCR Q2)
[17] L. Bilgeri, F. Salazar-Bloise, M. Lu, Shengjia Wang, M. Jakobi, and A. W. Koch, "Intensity distortions due to phase-only spatial light modulation: Characterization for applications in electronic speckle-pattern interferometry," Review of Scientific Instruments 89, 083701 (2018). DOI: 10.1063/1.5029914 (SCI, JCR Q3)
[16] M. Lu, Shengjia Wang, L. Bilgeri, X. Song, M. Jakobi, and A. W. Koch, "Online 3D displacement measurement using speckle interferometer with a single illumination-detection path," Sensors 18, 1923 (2018). DOI: 10.3390/s18061923 (SCI, JCR Q1)
[15] Z. Gao, J. Qin, Q. Feng, Shengjia Wang, X. Wang, S. Yang, C. Gao, "A method for full-field measurement using dynamic laser Doppler imaging," International Patent, WO2018072143, published on 26.04.2018. Available at: World Intellectual Property Organization (WIPO)
[14] X. Dong, M. Jakobi, Shengjia Wang, M. H. Köhler, X. Zhang, and A. W. Koch, "A review of hyperspectral imaging for nanoscale materials research," Applied Spectroscopy Reviews 1-21 (2018). DOI: 10.1080/05704928.2018.1463235 (SCI, JCR Q1)
[13] Shengjia Wang*, M. Lu, L. M. Bilgeri, M. Jakobi, F. Salazar-Bloise, and A. W. Koch, "Temporal electronic speckle pattern interferometry for real-time in-plane rotation analysis," Optics Express 26, 8744-8755 (2018). DOI: 10.1364/OE.26.008744 (SCI, JCR Q1)
[12] L. Aulbach, F. Pöller, M. Lu, Shengjia Wang, and A. W. Koch, "Optical mapping of surface roughness by implementation of a spatial light modulator," Proc. SPIE 10373, 0E (23 August 2017). DOI: 10.1117/12.2270548
[11] L. Aulbach, M. Oberhans, M. Lu, Shengjia Wang, and A. W. Koch, "Modellierung von Referenzwellen zur lokalen Desensibilisierung in der Speckle-Interferometrie mittels Qualit？tskriterien des Phasenbildes," Proc. DGaO 118, Jahrestagung, (July 2017). Available at: https://www.dgao-proceedings.de/download/118/118_p29.pdf
[10] L. Aulbach, F. Salazar-Bloise, M. Lu, Shengjia Wang, and A. W. Koch "Structural influence of a spatial light modulator on generated wavefronts for speckle-based shape measurement", Proc. SPIE 10334, 03 (26 June 2017). DOI: 10.1117/12.2269453
[9] M. Lu, Shengjia Wang, L. Aulbach, M. Jakobi, and A. W. Koch, "Non-phase unwrapping interferometric approach for a real-time in-plane rotation measurement," Optics Letters 42, 1986-1989 (2017). DOI: 10.1364/OL.42.001986 (SCI, JCR Q1)
[8] A. W. Koch, M. Lu, Shengjia Wang, L. Aulbach, and M. Jakobi, "Optical Rotation Sensor based on speckle interferometry," in Advanced Photonics 2017, OSA Technical Digest (online) (Optical Society of America, 2017), paper SeM3E.4. DOI: 10.1364/SENSORS.2017.SeM3E.4
[7] X. Zhang, Z. Gao, J. Qin, G. Li, Z. Feng, and Shengjia Wang, "Synchronous two-wavelength temporal interferometry", Proc. SPIE 9684, 09 (27 September 2016). DOI: 10.1117/12.2239472
[6] M. Lu, Shengjia Wang, L. Aulbach, and A. W. Koch, "Simultaneous displacement and slope measurement in electronic speckle pattern interferometry using adjustable aperture multiplexing," Applied Optics 55, 5868-5875 (2016). DOI: 10.1364/AO.55.005868 (SCI, JCR Q2)
[5] Z. Feng, Z. Gao, X. Zhang, Shengjia Wang, D. Yang, H. Yuan, and J. Qin, "A polarized digital shearing speckle pattern interferometry system based on temporal wavelet transformation," Review of Scientific Instruments 86, 093102 (2015). DOI: 10.1063/1.4929533 (SCI, JCR Q3)
[4] Z. Feng, Z. Gao, X. Zhang, and Shengjia Wang, "Research on key factors in the digital shearing speckle pattern interferometry," Proc. SPIE 9621, 09 (5 August 2015). DOI: 10.1117/12.2193121
[3] Shengjia Wang, Z. Gao, Z. Feng, X. Zhang, D. Yang, H. Yuan, "Heterodyne imaging speckle interferometer," Optics Communications 338, 253-256 (2015). DOI: 10.1016/j.optcom.2014.09.078 (SCI, JCR Q3) [Fast Track Communications, Top 5%]
[2] Shengjia Wang, Z. Gao, G. Li, Z. Feng, and Q. Feng, "Continual mechanical vibration trajectory tracking based on electro-optical heterodyne interferometry," Optics Express 22, 7799-7810 (2014). DOI: 10.1364/OE.22.007799 (SCI, JCR Q1)
[1] Shengjia Wang, Z. Gao, G. Li, and Z. Feng, "Adaptive pulse oximeter with dual-wavelength based on wavelet transforms," Optics Express 21, 23058-23067 (2013). DOI: 10.1364/OE.21.023058 (SCI, JCR Q1)

Welcome to the Laboratory of Optics in Free Space (LOFS), headed by Prof. Dr.-Ing Shengjia Wang, at the Department of Physics, Harbin Engineering University. Research at LOFS focuses on the design and investigation of optical imaging and interferometric systems. We have long-lasting experience in optical metrology, optical imaging, integrated optics, Fourier optics, and computational optics, where we have developed a series of powerful systems and devices, such as phase modulators, DIC-microscopes, Fourier-transform imaging spectroscopes, and a number of non-destructive testing systems over the past years. Systems and devices are directly prototyped and characterized by measurements in our laboratory. As of the Summer Semester 2024, we have eight members in the lab, carrying out various studies about optics in free space. 

Current members:

---

Pengfei Huang, 黄鹏飞, conducts his master thesis with the topic of quantitative DIC microscopy.

---

Pengyuan Shi, 时鹏远, conducts his master thesis with the topic of vibration pattern analysis system.

---

Jianxuan Xiong, 熊键轩, conducts his master thesis with the topic of super-compact DIC microscopy.

---

Yingjie Feng, 冯英杰, conducts his master thesis with the topic of multi-quantity simultaneous measurement interferometric system.

---

Bo Dong, 董博, conducts his master thesis with the topic of multi-functional microscopy.

---

Qing Chang, 常青, conducts his master thesis with the topic of advanced integrated optical systems.

---

Weidong Fang, 方未东, conducts his master thesis with the topic of optical testing for aspheric/freeform optics.

---

Siyuan Qi, 齐司源, conducts his bachelor and master thesis with the topic of multi-functional phase mask for interference optics.