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Faculty > Ph.D.supervisor > Content
Yawei Wang
Date:2021-11-26 View:
Name
:
Yawei Wang
Position and Technical Title:
Professor、Doctoral Supervisor
Research Areas
:
Bio-optical detection technology and its applications
Graduate Admission Professions:
Electronic Science and Technology, Optical Engineering
Telephone:
13376162388
E-mail
:
jszjwyw
⊙
sina.cn
Corresponding Address
:
Faculty of Science, Jiangsu University, No.301, Xuefu Road, Zhenjiang, Jiangsu Province(212013)
Education and Work Experience
● 1987/01-1995/06, Jiangsu University, Department of Physics, Faculty of Science, Lecturer and Assistant Professor
● 1995/07-2001/06, Jiangsu University, Department of Physics, Faculty of Science, Associate Professor
● 2001/07-2003/06, Jiangsu University, Department of Physics, Faculty of Science, Professor
● 2003/07-2005/06, Jiangsu University, Mechanical and Electronic Engineering, Postdoctoral Fellowship, Co-Supervisor: Cai Lan
● 2005/07-2007/01, Jiangsu University, Department of Physics, College of Science, Professor, Ph.
● 2007/02-2008/02, Jena University, Germany, Department of Physics, Senior Visiting, Co-Supervisor: Prof. Frank Wyrowski
● 2008/03-Present, Jiangsu University, Department of Physics, Faculty of Science, Professor, Ph.D
Academic and Social Part-time
Member of Jiangsu Provincial Physics Society
Teaching Courses
● Frontiers of Optoelectronics Science and Technology Applications
● Colledge Physics
● Introduction to Colledge Physics
Academic Research Topic
1. Label-free precision imaging of bulk blood cells under non-orthogonal basis and its sub-structure 3D morphology reconstruction with high efficiency (11874184), National Natural Science Foundation of China (2019-2022), hosted, under research.
2. Method and Technique for 3D Feature Recognition of Nucleated Cell Subsurface under Orthogonal Phase Microscopy (11374130), NSF (2014-2017), hosted, completed.
3. Relationship between cross-domain optical information of biological cells and physical characteristics of their micro and nano structures (20113227110018), Joint Research Fund for Special Research on Doctoral Subjects of Higher Education Institutions (2014-2016), sponsored and completed.
4. Theory and Key Technology of Hilbert Transient Optical Holographic Detection in Multibody Cells (09KJA140001), Major Project of Jiangsu Provincial Education Department (2013-2015), completed.
5. Theory and Key Techniques of Transient Optical Detection of Cross-Scale Bubble Clusters in Multi-Phase Flow (21146004), National Natural Science Foundation of China (2012), completed.
6. Digital phase distribution-based optical detection method for transient identification of biological cells (BK2008230), NSF of Jiangsu Province (2011-2013), completed.
7. Fundamental research on anomalous transmission properties of subwavelength periodic arrays (kjs0905), Jiangsu Provincial Key Laboratory for Universities (2010-2012), completed.
8. Technology and Theory of Laser Processing of Cellular Shapes (06-E-059), Jiangsu Province, China (2008-2010), completed.
9. Study on the effect of ultra-intense and ultra-fast laser on cells and its mechanism (04cx06), sponsored by the Natural Science Innovation Fund of Jiangsu University (2008), completed.
10. One-piece measurement theory of cell size and morphology distribution (2004035656), China Postdoctoral Fund (2006-2008), completed.
11. Theory and Method of Photoelectric Particle Physical Characterization in Urine (04kjb140017), Natural Science Foundation of Jiangsu Education Department (2006-2008), completed.
Academic Publications
2018
1. A dual-wavelength iterative method for generalized dual-wavelength phase-shifting interferometry with second-order harmonic, Optics and Lasers in Engineering,2018, 106:39-46.
2. Fast phase retrieval with four-quadrant analysis in phase-shifting interferometry with blind phase shift, Optics Communications, 2018, 407:169-174.
3. Quantitative phase retrieval using four interferograms with special phase shifts by dual-wavelength in-line phase-shifting interferometry, Journal of Modern Optics, 2018, 65(9):1090-1097.
2017
1. Phase gradient algorithm based on co-axis two-step phase-shifting interferometry and its application, Optics Communications, 2017, 405:211-215.
2. Statistical estimation method for phase shift in generalized two-step phase-shifting interferometry, Journal of Modern Optics, 2017, 64(5):484-490.
3. Phase-shifting interferometry by a similar matrix 1-norm algorithm,Journal of Modern Optics, 2017, 64(15):1479-1486
2016
1. Dual-wavelength in-line phase-shifting interferometry based on two dc-term-suppressed intensities with a special phase shift for quantitative phase extraction, Optics Letters, 2016, 41(11): 2430-2433.
2. Three-frame generalized phase-shifting interferometry by a Euclidean matrix norm algorithm, Optics and Lasers in Engineering, 2016, 84: 89-95.
3. A method for determining both multiple refractive indices and 3D substructure of a binucleate cell, Optics Communications, 2016, 365: 113-119.
2015
1. 3D morphological reconstruction of red blood cell based on two phase images, Optica Applicata, 2015, 45(2):173-182.
2. Sub-surface quick imaging of typical blood cells based on orthogonal phase images by rotating method, Optik, 2015, 126:5026-5029.
3. A fast phase retrieval method based on twice derivatives in phase-shifting interferometry with a blind phase shift, Chinese Optics Letters, 2015, 13.S2.
2014
1. An entropy method for 3D subsurface imaging of a nucleated cell based on orthogonal phase images, Optics Communications, 2014, 326:170-174
2. A phase retrieval method of interferograms add-subtracting based on two-step phase shifting, Bio-Medical Materials and Engineering, 2014, 24(6): 3043-3048.
3. Simulation study on the quantitative phase retrieval method under two-step phase-shifting technique, Optik, 2014, 124(17): 4841-4844
2013
1. An improved derivative phase extracting method for the off-axis quantitative phase imaging, Optics Communications, 2013, 305(15):13–16.
2. A new phase method to identify subgroup of blood cell without unwrapping, Applicata optics, 2013, 43(3):505-514.
3. Subsurface imaging by dual-medium quantitative phase measurement, Optik, 2013, 124: 4729- 4733.
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