星空体育平台主页
首页> 团队队伍> 在职教师

张亚萍

作者:星空体育平台 时间:2021-04-24

 张亚萍Yaping Zhang

汉族,中共党员,三级教授,博导(机械工程学科)

Email: yapingzhang11@qq.com  &  yaping.zhang@gmail.com 

受教育经历(Education)

1.2004/9–2008/1, 哈尔滨工业大学, 光学工程, 博士(导师:许士文,范志刚)

2.2002/9–2004/7, 哈尔滨工业大学, 光学工程, 硕士(导师:范志刚)

3.1997/9–2001/7, 长春理工大学, 机械电子工程, 学士

教学工作(Teaching)

承担本科生和研究生的信息光学、信号与系统、专业英语、光学系统设计等课程

主要研究方向(Research Areas):

光学扫描全息,数字全息及其三维目标识别、显示、遥感等,光致聚合物全息膜制备及其特性研究等方向(Digital Holography (DH), Optical Scanning Holography (OSH), Polygon-based Computer-generated holography, Polymers, and their applications to 3-D display, 3-D object recognition, holographic printing technology and optical holographic remote sensing

承担科研项目及完成情况(Select Funding as Principal Investigator (PI)):

1. 国家自然科学基金面上项目,62275113,面向三维目标识别的光学扫描全息技术研究,2023/01-2026/12,主持,在研

2. 云南省科技厅2022兴滇英才支持计划,产业创新人才专项项目,2023/1-2027/12,主持,在研

3. 云南省学位委员会、云南省教育厅2022云南省研究生导师团队建设项目,信息光学研究生导师团队(物理学(学硕)),2022/09-2024/09,主持,在研

4. 教育部产学合作协同育人项目,220502116265822, 全息三维显示虚拟实验基地, 2022/11-2023/11,主持,在研

5. 星空体育平台十四五规划教材建设项目,现代信息光学(中英双语版),2022/05-2025/05,主持,在研

6. 云南省教育厅关于云南省第二批国家级和省级一流本科课程,2021.7,现代信息光学虚拟仿真实验,主持,在研

7. 国家自然科学基金地区项目, 61865007,面向全息三维显示的氧化石墨烯聚合物全息特性研究,2019/01-2022/12,主持,结题;

8. 云南省自然科学基金重点项目,2019FA025光致聚合物全息特性及其全息三维显示的研究,2019/05-2022/06,主持,结题();

9. 云南省自然科学基金面上项目,2018FB101,基于数字全息的三维显示技术机理与实验研究,2018/05-2021/6,主持,结题();

10. 北京振兴计量测试研究所项目,2020530101000949,光学图像识别算法研究,2020/11-2022/11,主持,结题;

11. 北京振兴计量测试研究所项目,2020530101000946,光学图像测试算法研究,2020/11-2022/11,主持,结题;

12. 国家自然科学基金地区项目,61565010,计算全息快速算法及其再现像承载器件的机理研究,2016/01-2019/12,主持,结题;

13. 国家自然科学基金青年科学基金:61007061,复杂曲面物体的快速计算全息算法及其三维显示研究,起止时间:2011/01-2013/12,主持,结题;

14. 星空体育平台2018年校级质量工程虚拟仿真实验培育项目,物理和光电信息技术虚拟仿真实验室,2018.3-2019.3,主持,结题;

15. 中国高等教育学会高通公司产学合作协同育人项目,201602034024,基于数字全息的液体浓度实时监测实验装置研制,2016/12-2018/6,主持,结题;

16. 教育部回国留学人员科学基金,KKQA201307001,复杂三维物体计算全息算法研究,起止时间:2013/07-2016/07,主持,结题;

17. 中国博士后科学基金,20090461386,数字全息光弹应力场检测方法的研究与改进,起止时间:2009/09-2011/07,主持,结题;

18. 云南省自然科学基金,2008F041M,光学图像的相位互异散斑校正技术研究,起止时间:2009/01-2011/12,主持,结题;

19. 星空体育平台人才培养基金,2008-02,气动效应对探测系统性能的影响,起止时间:2008/05-2009/05,主持,结题;

20. 北京星敏科信息技术有限公司项目,2009530105000180,激光束M2因子测量与分析研究,起止时间:2009/03-2009/12,主持,结题;

学术工作经历(Experience)

1. 2018/7-2020/8Virginia Tech,访问学者, 合作导师:潘定中(Ting-Chung Poon

2. 2012/8-2019/8,星空体育平台,星空体育平台,副经理

3. 2017/6-至今,星空体育平台,机械工程学科 博导

4. 2015/10-至今,星空体育平台,星空体育平台物理系,教授

5. 2009/7-2011/7,浙江大学/美国哈佛大学,博士后,合作导师:丘成桐 (Shing-Tung Yau)

6. 2009/8-2015/10,星空体育平台,星空体育平台物理系,副教授

7. 2008/4-2009/7,星空体育平台,星空体育平台物理系,讲师

学术兼职Service to the profession

1. 2023.1-IEEE Senior Member (IEEE高级会员)

2. 2023-2024, Optica (formerly OSA)的主题会议Digital Holography and Three-Dimensional Imaging主席 (2023-Program Chair; 2024-General Chair) 

3. 2023, 第十四届国际信息光学与光子学学术会议(CIOP 2023Optics Frontier—The 14th International Conference on Information Optics and PhotonicsSC11. Optical Imaging, Display and Storage FiO7委员会委员(FiO7 Sub-Committee Member

4. 2023Optica (formerly OSA)的年会Frontiers in Optics + Laser Science Conference (FiO+LS)FiO7委员会委员(FiO7 Sub-Committee member) , Tacoma, Washington DC

5. 2022/2021Optica (formerly OSA)的年会Frontiers in Optics + Laser Science Conference (FiO+LS)FiO7会议主席,(FiO7 Sub-Committee Chair: 20212022)

6. 2023/2022SPIE/Photonics Asia的委员会委员 ( Committee Member, SPIE Photonics Asia, Holography, Diffractive Optics, and Applications, 2022, 2023)

7.  2022/2021/2020Optica (formerly OSA)Topical Meeting on Digital Holography and Three-Dimensional Imaging的委员会委员( Committee Member, 2020, 2021, 2022)

8. 2022-今,云南省物理学会第十四届理事会 理事。

9. 2022, 5th International Conference on Control and Computer VisionICCCV 2022)指导委员会委员(Steering Committee& Technical Committee Member)

10. 2021-今,期刊Frontiers in Photonics“Optical Information Processing and Holography”的副编辑(Associate Editor

11. 2021-2022,期刊Fronters in Photonics的专刊“Digital holography: Applications and Emerging Technologies,”编辑(Co-Editor

12. 2021.9-SPIE Member

13. 2020-今 云南省现代信息光学重点实验室 主任;

14. 2020Optica (formerly OSA)的年会Frontiers in Optics + Laser Science Conference (FiO+LS)的委员会委员(FiO7 Sub-Committee member) , Washington DC, 2020 (Virtual event)

15. 2020,国际光学大会IEEE International conference on industrial informatics (INDIN 2020) 的分会Digital holography for industrial applications 共主席 (Co-Organizer )

16. 2019-今 云南省大学物理光电虚拟仿真实验室 负责人;

17. 2019-今 中国光学学会全息与光信息处理专业委员会 常务委员;

18. 2019.4-OPTICAFormerly OSAMember

19. 2018-今,教育部光电信息科学与工程专业教学指导委员会 委员;

20. 2018-今,云南省光电信息科学与工程专业教指委 副主任

21. 2018-今,云南省中青年学术和技术带头人 后备人才;

22. 2018-2022SCI期刊Applied Science专刊“Holography, 3D Imaging and 3D Display I&II” 编辑(Co-Editor);

23. 2016-今 星空体育平台激光信息处理技术与应用重点实验室 负责人;

24. 2012.12,主办国际会议论坛“3D Holographic Imaging Symposium ”KunmingChina

25. 2019-今,评审期刊(JOURNAL REVIEWER)

Light: Science& Applications, Optics Letters, Applied Optics, IEEE Transactions on Industrial Informatics, Advanced Photonics Research, Journal of the Optical Society of America A, Optics Express, Optics and Lasers in Engineering, Chinese Optics Letters, Photonics Journal, Applied Sciences, Results in Physics, Displays, Frontiers in Physics, Sensors, Optics Communications, Optik, Journal of Materials Science, Advanced Science, Opto-Electronic Science

获奖情况(Awards)

荣获云南省优秀研究生学位论文指导教师、星空体育平台优秀教师、红云园丁模范教师、伍达观教育基金优秀教师。

国际大会邀请报告、代表性教材/专著、论文和专利情况 

1. 代表性国际大会 邀请报告(Invited Talks

 

[1] 2021 SPIE/COS: Photonics Asia, Nantong, China, 12 - 16 October. TitleReview on edge extraction as pre-processing in optical scanning holography [Invited]

[2] 2021 OSA Topical Meeting on Digital Holography and 3D Imaging Meeting, Vancouver, BC Canada, 19 - 23 July. TitleHolographic properties and display of photopolymer with high concentration photo-initiator doped with SiO2 Nanoparticles [Invited]

[3] 2021 CIOP: Optics Frontier: the 12th International Conference on Information Optics and Photonics, Xi’an, China. 23-26, July. Title: Image edge extraction using dual acousto-optic optic modulators in a Mach-Zehnder interferometer [Invited]

[4] 2020 SPIE/COS: Photonics Asia, Beijing, China, 12 - 16 October. Title: Holographic performances of graphene oxide photopolymer [Invited]

[5] 2019 OSA: Frontiers in Optics + Laser Science APS/DLS Conference (FiO+LS), Washington DC, USA, 16 - 19 September. TitleResearch on Computer-Generated Holography Based on Polygons [Invited]

[6] 2019 SPIE/COS: Photonics Asia, Hangzhou, China, 20 - 23 October. TitleOptical scanning holography: a review of fundamentals with some recent applications [Invited]

2. 著作/教材(Books)

[1] Ting-Chung PoonYaping ZhangLiangcai Cao, and Hiroshi Yoshikawa, Holography, 3D Imaging and 3D Display (Printed Edition of the Special Issue Published in Applied Sciences), 364 pages, MDPI AG2021.2.19 printed. ISBN: 978-3-03943-595-1

[2] Yaping Zhang, Ting-Chung Poon, Modern Information Optics with MATLAB,英文版,英国剑桥大学出版社( Cambridge University Press (U. K.)) 和高等教育出版社(Higher Education Press (China))共同出版, 2023. ISBN: 9781316511596

[3] 张亚萍,许蔚,刘燕, 光学扫描全息(含MATLAB(Translation of the book “Optical Scanning Holography with MATLAB” by Ting-Chung Poon, Springer), 科学出版社(China Science Press), to appear in 2023.

[4] 张亚萍,刘燕,许蔚,工程光学(含MATLAB(Translation of the book “Engineering Optics with MATLAB” by T.-C. Poon and T. Kim, World Scientific), 科学出版社(China Science Press),译著,to appear in 2023.

[5] 张亚萍,潘定中,现代信息光学/Modern Information Optics with MATLABChinese, Chinese/English Versions,高等教育出版社(published by Higher Education Press (China), to appear in 2023. 

3. SCI/EI期刊文章(Select journal papers)(*denotes corresponding author):

[1] Jung-Ping Liu*, Chieh-Cheng Lee, Yaping Zhang, Yongwei Yao, Ting-Chung Poon, Single recording without heterodyning in optical scanning holography, Optics & Laser Technology, Vol.161, 2023, 109194, Impact factor:4.939

[2] Y. Zhang*; Y. Yao; J. Zhang; J. Liu and T.-C. Poon, “Off-axis optical scanning holography [Invited],” Journal of the Optical Society of America A, 39(2): A44-A51(2022). Impact factor: 2.104 (Top Downloads in the Journal of the Optical Society of America A (February, March, April, May of 2022). Also, one of the most downloaded JOSA A papers on Holography, Diffraction and Grating in the period of two years (2021 and 2022))

[3] H. Fan, B. Zhang, Y. Zhang*, F. Wang, W. Qin, Q, Fu, and T.-C. Poon, “Fast 3D Analytical Affine Transformation for Polygon-Based Computer-Generated Holograms,” Applied Sciences 12(14):6873 (2022). Impact factor: 2.838

[4] Jung-Ping Liu*, Chen-Ming Tsai, Ting-Chung Poon, P.W.M. Tsang, and Yaping Zhang, “Three-dimensional imaging by interferenceless optical scanning holography,” Optics and Lasers in Engineering, Volume 158,107183, (2022). Impact factor: 5.666

[5] Tatsuki Tahara*, Yaping Zhang, Joseph Rosen, Vijayakumar Anand, Liangcai Cao, Jiachen Wu, Takako Koujin, Atsushi Matsuda, Ayumi Ishii, Yuichi Kozawa, Ryo Okamoto, Ryutaro Oi, Teruyoshi Nobukawa, Kihong Choi, Masatoshi Imbe, and Ting-Chung Poon, “Roadmap of incoherent digital holography,Applied Physics B 128, Article number:193 (2022). Impact factor: 2.171  

[6] PWM Tsang*, T.-C. Poon, Y. Zhang, and P. Ferraro, “Editorial: Digital holography: Applications and Emerging Technologies,” Fronters in Photonics 3:1073297. doi: 10.3389/fphot.2022.1073297

[7] T. Hu*, I. R. Baxendale, Y. Su, F. Li, S. Duan, Y. Zhang & H. Fan, “Tracking on crystallization process of doped metal oxide IATO to optimize solvothermal condition,” Applied Physics A 128, 371 (2022). Impact factor: 2.983

[8] Y. Zhang*; H. Fan, and T.-C. Poon, “Optical image processing using acousto-optic modulators as programmable volume holograms: a review [Invited],” Chinese Optics Letters 20(2): 021101-1(2022). Impact factor: 2.560

[9] Y. Zhang*, H. Fan, F. Wang, X. Gu, X. Qian and T.-C. Poon, “Polygon-based computer-generated holography: a review of fundamentals and recent progress [Invited],” Applied Optics, 61(5): B363-B374 (2022). Impact factor:1.905

[10] F. Wang*, T. Shimobaba, Y. Zhang, T. Kakue, and T. Ito, “Acceleration of Polygon-Based Computer-Generated Holograms Using Look-Up Tables and Reduction of the Table Size Via Principal Component Analysis,” Optics Express 29(22), 35442-35455 (2021). Impact factor: 3.833

[11] H. Zhang*, Y. Zhang*, L. Wang, Z. Hu, W. Zhou, P. Tsang, D. Cao, and T.-C. Poon, “Study of Image Classification Accuracy with Fourier Ptychography,” Applied Sciences 11, 4500 (2021). Impact factor: 2.838

[12] T.-C. Poon, Y. Zhang*, L. Cao, and H. Yoshikawa, “Editorial on Special Issue “Holography, 3-D Imaging and 3-D Display,” Applied Sciences 10, 7057 (2020). Impact factor: 2.838

[13] T. Hu*, Y. Su, I. Baxendale, Y. Zhang, and J. Zhu, “The design and Preparation of Transparent Hybrid Composite Thin Films with Excellent Optical Properties and Improved Thermal Insulation by Optimized Combination of Nanomaterials,” Journal of electronic materials, 49(3), 2020. Impact factor: 2.047

[14] Y. Zhang*, R. Wang, P. Tsang, and T.-C. Poon, “Sectioning with edge extraction in optical incoherent imaging processing,” OSA Continuum, 4(3): 698-708 (2020).

[15] X. Zhu, W. Fang, J. Lei, Z. Li, F. Xie, Y. Cao, Y. Zhang, F. Qin*, and X. Li, “Supercritical lens array in a centimeter scale patterned with maskless UV lithography,” Optics Letters, 7(45): 1798-1801 (2020) – Impact factor: 3.560

[16] X. Zhu, S. Wang, C. Li, Y. Zhang*, W. Fang, Y. Lu, C. Guo, R.e Wang, Y. Zhang, W. Xu, X. Li, and T.-C. Poon “Vortex beam generation from reduced graphene oxide (rGO)-polymer,” Optical Materials Express, 9(12)97-4505 (2019) – Impact factor : 3.074

[17] Y. Zhang, T.-C. Poon, P. Tsang*, R. Wang, and L. Wang, “Review on Feature Extraction for 3-D Incoherent Image Processing Using Optical Scanning Holography,” IEEE Transactions on Industrial Informatics 15 (11), 6146-6154 (2019) – Impact factor: 11.648

[18]  Y. Zhang*, F. Wang*, T.-C. Poon, S. Fan, and W. Xu, "Fast generation of full analytical polygon-based computer-generated holograms," Optics Express 26(15), 19206-19224 (2018) - Impact factor: 3.833

[19] R. Wang, Y. Zhang*, X. Zhu, F. Wang, C. Li, Y. Zhang, W. Xu,“ Multi-section images parallel encryption based on optical scanning holographic cryptography technology,” Acta Physica Sinica, 2019, 68(11): 114202. doi:10.7498/aps.68. 20190162

[20] R. Wang, Y. Zhang*, F. Wang, X. Zhu, .C Li, Y. Zhang, and W. Xu., “Edge Extraction Based on Optical Scanning Holography System with Annular Pupils,” [J]. Chinese Journal of Lasers, 2019, 46(1): 0109001

[21] F. Wang, Y. Zhang*, H. Wang, W. Xu, Y. Zhang, and C. Li, “Nondestructive evaluation of residual stress via digital holographic photoelasticity,” J. Optics, 47, pp. 547-552 (2018). (EI)

[22] S. Fan, Y. Zhang*, F. Wang, Y. Gao, X. Qian, Y. Zhang, W. Xu, and L. Cao. “Gerchberg-Saxton algorithm and angular spectrum layer-oriented method for true color three-dimensional display,” Acta Physica Sinica 67 (9): 94203-094203 (2018) SCI.

[23] F. Wang, Y. Zhang, S. Yang, Y. Guo, Y. Zhang*, “Research on Spatial coherence of light source based on Matlab simulation algorithm,” Laser & Optoelectronics Progress 54, 092601, 2017: 1-8 (in Chinese). Impact factor: 1.509

[24] W. Yang, Q. Song, Y. Zhang* et al., “Research on the Non-Color Aliasing Real-Time Acquisition with Color Digital Holography Measurement,” Laser & Optoelectronics Progress 52(3): 030901 (2015). Impact factor: 1.509

[25]  Y. Zhang*, P. Wang et al., “Computer-generated-hologram-accelerated computing method based on mixed programming,” Chinese Optics Letters, 12(3): 030902 (2014)– Impact factor: 2.560

[26] Y. Zhang*, J. Zhang, et al. “Research on three-dimensional computer-generated holographic algorithm based on conformal geometry theory,” Optics Communications 309: 196-200 (2013) – Impact factor: 2.335

[27] Y. Zhang*, J Li, et al. “Eliminate the influence of zero-order diffraction for wavefront reconstruction with selectable magnification in digital holographic,” Optical and Quantum Electronics 45(10): 1077-1086 (2013) – Impact factor: 2.794

[28] Y. Zhang*, J. Zhang et al., “Fast computer-generated hologram algorithm of triangle mesh models,” Chinese Journal of Lasers, 2013, 40(7): 189-194. Impact factor: 1.655

[29] Y. Zhang*, J. Zhang, W. Xu, J. Gui, Y. Lou, and Y. Zhang, “Elimination of the Influence of Zero-Order Diffraction Using Highpass Filter in Wavefront Reconstruction,” Acta Optica Sinica, 2011, 11(31): 1-6. Impact factor: 1.758

[30] Y. Zhang*, Y. Liu, and S. Wang. “Digital Mirror Device Application in Reduction of Wave-front Phase Errors,” Sensors 9(4): 2345-2351 (2009) – Impact factor: 3.847

[31] Y. Zhang*, Z. Fan, and W. Xu. “Modification of Coherent Gradient Sensing (CGS) to Accurately Get the Fringe Order,” Key Engineering Materials, 2006, 326-328: 171-174. (SCI)

[32] J Li, Y Zhang*, et al., “High quality digital holographic wave-front reconstruction system,” Acta Physica Sinica 58(8): 5385-5391 (2009). Impact factor: 1.758

4. 代表性会议文章(CONFERENCE PAPERS) (*denotes corresponding author)

[1] J. Liu*, C. Tsai, T. Poon, P. W. M. Tsang, and Y. Zhang, "Holographic Imaging by Single-Beam Scanning without Interference," in Frontiers in Optics + Laser Science 2022 (FIO, LS), Technical Digest Series (Optica Publishing Group, 2022), paper JW5B.48.

[2] Wenlong Qin, Yaping Zhang*, Bing Zhang, Qingyang Fu, and Ting-Chung Poon "Fast texture mapping for analytical polygon-based computer-generated holography", Proc. SPIE 12318, Holography, Diffractive Optics, and Applications XII, 123181R (19 December 2022); 

[3] Yongwei Yao, Yaping Zhang*, and Ting-Chung Poon "Optical tomography in coherent off-axis scanning holography", Proc. SPIE 12318, Holography, Diffractive Optics, and Applications XII, 123181L (19 December 2022);

[4] Y. Yao, Y. Zhang*, and T. Poon, "Two-pupil optical heterodyne scanning holographic system with highpass filtering pupils," in Frontiers in Optics + Laser Science 2022 (FIO, LS), Technical Digest Series (Optica Publishing Group, 2022), paper JTu4B.49.

[5] Q. Fu, Y. Zhang, B. Zhang*, and T. Poon, "Texture Mapping Based on Planar Projection Mapping in fully analytic polygon-based computer-generated holography," in Frontiers in Optics + Laser Science 2022 (FIO, LS), Technical Digest Series (Optica Publishing Group, 2022), paper JTu4B.51.

[6] Y. Zhang*, H. Chen, J. Zhang, and Y. Zhang, "Holographic properties and display of photopolymer with high concentration photoinitiator doped with SiO2 Nanoparticles [Invited]," in OSA Imaging and Applied Optics Congress 2021, paper DTh1C.3.

[7] Y. Zhang*, Y. Yao, B. Wang, H. Fan, and T.-C. Poon "Review on edge extraction as pre-processing in optical scanning holography [Invited]", Proc. SPIE 11898, Holography, Diffractive Optics, and Applications XI, 118980J (9 October 2021)

[8] Yaping Zhang*, Xufeng Zhu, Ting-Chung Poon, "Holographic performances of graphene oxide photopolymer," Proc. SPIE 11551, Holography, Diffractive Optics, and Applications X, 115510D (15 October 2020)

[9] Y. Zhang*, R. Wang, L. Wang*, P Tsang and T Poon, “Annular pupil in optical scanning holography,” in May, 2019 OSA Topical Meeting on Digital Holography and Three-Dimensional Imaging, Paper W1A.5, Bordeaux, France.

[10] R. Wang, Y. Zhang*, and T. Poon, “Edge extraction of multi-section objects in optical scanning holography,” 2019 IEEE 28th International Symposium on Industrial Electronics (ISIE), pp.2385-2387 IEEE-ISIE (June, 2019), Vancouver, Canada.

[11] J Zhang, Y Zhang*, P Wang, “A new algorithm for holographic interferometry,” Symposium on Photonics and Optoelectronics (SOPO), IEEE, 2012: 1-4. (EI)

[12] Y Zhang* and Z Fan. Optics Correction Based on MOEMS and PDS. Proceedings of the 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems. 2006: 585-589 (EI).

5. 发明专利(CHINESE PATENTS)

[1] 张亚萍;姚勇伟;许蔚;张竟原;范厚鑫,一种离轴扫描全息三维目标实时联合变换识别系统及方法(Yaping Zhang, Yongwei Yao, Wei Xu, Jingyuan Zhang, Houxin Fan, A real-time joint transform recognition system and method using off-axis scanning holography for three-dimensional target recogntion, Invention patent, granted 2022-12-16, China)2021-05-11申请,2022-12-16,授权,中国,ZL202110508767.5

[2] 张亚萍;张竟原,许蔚,一种无透镜系统及其彩色扫描全息实现方法(Yaping Zhang, Jingyuan Zhang, Wei Xu, A lensless system and its realization method for color scanning holography, Invention patent, granted 2021-08-24, China),发明专利,2020-11-12,申请,2021-08-24,授权,中国,ZL 202011262254.2

[3] 张亚萍;姚勇伟;许蔚;李重光;张永安;范厚鑫;王斌;张竟原;陈会心,一种光学扫描全息三维物体实时识别系统及方法(Yaping Zhang, Yongwei Yao, Wei Xu, Yongan Zhang, Houxin Fan, Bin Wang, Jingyuan Zhang, Huixin Chen, Real-time recognition system for 3D objects using optical scanning holographic technology, Invention patent, granted 2022-6-21, China)2021-02-03申请,2022-6-21,授权,中国,ZL202110149175.9  

[4] 张亚萍;王仁德;李重光;张永安,一种基于环形光差频扫描实现边缘提取的全息方法(Yaping Zhang, Rende Wang, Chongguang Li, Yongan Zhang, Edge Extraction Based on Optical Scanning Holography using Annular Pupils with optical heterodyning, Invention patent, granted 2020-05-15, China),发明专利, 申请,2018-04-20授权, 2020-05-15, 中国, ZL201810360036.9  

[5] 张亚萍;高云龙;张永安;范爽;潘永峰;张弓的。一种光致聚合物全息记录材料的封装体及其封装方法(Yaping Zhang, Yunlong Gao, Yongan Zhang, Shuang Fan, Yongfeng Pan, Gongdi Zhang, Encapsulation and packaging method of photopolymer holographic recording materials, Invention patent, granted 2020-04-03, China). 发明专利,2017-11-17申请, 2020-04-03,授权,中国,ZL201711146414.5

[6] 张亚萍;高云龙;张永安;范爽;潘永峰;张弓的,掺杂氧化石墨烯的光致聚合物全息记录材料及其制备方法(Yaping Zhang, Yunlong Gao, Yongan Zhang, Shuang Fan, Yongfeng Pan, Gongdi Zhang, Photopolymer holographic recording materials doped with graphene oxide (GO) and its preparation method, Invention patent, granted 2020-11-17, China),发明专利,2017-11-17申请,2020-11-17,授权,中国,ZL201711146415.X

[7] 张永安,赖本林,张亚萍,赵航,红外数字全息相位提取的文物三维形貌重建装置及方法(Yongan Zhang, Benlin Lai, Yaping Zhang, Hang Zhao, A device and method for 3D reconstruction of cultural relics based on infrared digital holographic phase extraction technology, Invention patent, granted 2022-11-24, China),发明专利,2021-12-09,申请, 2022-11-24,授权,中国,ZL2021111499335.9

[8] 刘万里,张永安,张亚萍,潘永峰,刘建建,一种将红外全息用于粒子场测量的装置(Wanli Liu, Yongan Zhang, Yaping Zhang, Yongfeng Pan, Jianjian Liu, Infrared holographic device used for particle field measurement, Invention patent, granted 2020-09-25, China),发明专利,2018-08-20申请,2020-09-25,授权,中国,ZL 201810946759.7

[9] 张永安,刘建建,张亚萍,田凤仙,刘万里,一种红外全息用于风速风向测量的装置(Yongan Zhang, Jianjian Liu, Yaping Zhang, Fengxian Tian, Wanli Liu, Infrared holographic device used for wind speed and direction measurement, Invention patent, granted 2021-05-28, China),发明专利,申请,2019-08-29, 授权,2021-5-28,中国,ZL201910805402.1

[10] 张亚萍,李俊昌,许蔚,一种角分复用的数字全息光弹二维应力场实时检测方法(Yaping Zhang, Junchang Li, Wei Xu, Real-time monitoring method for two-dimensional stress field based on digital holographic with angle division multiplexing, Invention patent, granted 2009-04-03, China), ZL200910094293.3, 2009.4.3 授权.

[11] 张亚萍,范厚鑫,许蔚,陈会心,张竟原,姚勇伟,王斌,基于双声光调制器的全息图像重建方法及重建系统(Yaping Zhang, Houxin Fan, Wei Xu, Huixin Chen, Jingyuan Zhang, Yongwei Yao, Bin Wang, Holographic image reconstruction method and its reconstruction system based on dual acousto-optic modulators, granted 2022-7-12, China ),发明专利,2021-1-29申请, 2022-7-12,授权,中国,ZL202110128697.0

[12] 张永安赖本林张亚萍陈强珅基于红外显微数字全息的半导体缺陷检测装置及方法(Yongan Zhang, Benlin Lai, Yaping Zhang, Qiangkun Chen, Semiconductor defect detection device and method based on infrared digital holographic microscopy, granted 2022-10-13, China),发明专利,2022-10-13授权,中国,ZL202011262254.2

6. 软件著作权(SOFTWARE COPYRIGHT(*denotes corresponding author)

[1] 钱晓凡张亚萍*,动态同轴全息记录与显示虚拟仿真实验系统V1.0 (Xiaofan Qian, Yaping Zhang*, Virtual Simulation Experiment System for Dynamic Coaxial Holographic Recording and Display, V1.0, Software copyright, China), 软件著作权(Software copyrighted 2021-06-16,中国,2021SR0899699, 2021-06-16.

[2] 钱晓凡张亚萍*,基于离轴全息的记录与再现虚拟仿真实验系统(Xiaofan Qian, Yaping Zhang* , Virtual simulation experiment system for recording and reconstruction based on off-axis holography, Software copyright, China),软件著作权(Software copyrighted 2021-05-27,中国,V1.0,2021SR0779596, 2021-05-27.                

版权所有©星空体育平台

技术支持:星空体育平台信息化建设管理中心