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200 10$aComputational optical phase imaging /$fCheng Liu, Shouyu Wang, and Suhas P. Veetil
210  1$aGateway East, Singapore :$cSpringer,$d[2022]
210  4$d©2022
215   $a1 online resource (311 pages)
225 1 $aProgress in Optical Science and Photonics ;$vv.21
311 08$aPrint version: Liu, Cheng Computational Optical Phase Imaging Singapore : Springer Singapore Pte. Limited,c2022 9789811916403 
320   $aIncludes bibliographical references and index.
327   $aIntro -- Preface -- Contents -- 1 Introduction to Computational Phase Imaging -- 1.1 Fundamentals of Optical Imaging -- 1.2 Limitations of Common Intensity Imaging -- 1.3 Intensity Imaging to Phase Imaging -- 1.4 Basic Principles of Computational Phase Imaging -- References -- 2 Qualitative Phase Imaging -- 2.1 Phase Contrast Microscopy -- 2.2 Differential Interference Contrast (DIC) Microscopy -- 2.3 Spectrum Modulation Contrast Imaging -- 2.4 Hoffman Modulation Contrast Microscopy -- 2.5 Schlieren Photography -- 2.6 Comparison of Qualitative Phase Imaging Techniques -- References -- 3 Interference-Based Quantitative Optical Phase Imaging -- 3.1 Description of Holography and Interferometry -- 3.2 Classification of Holography and Interferometry -- 3.2.1 On-Axis and Off-Axis -- 3.2.2 Fresnel and Fourier -- 3.2.3 Shearing and Non-shearing -- 3.3 Numerical Simulations on Holography and Interferometry -- 3.3.1 Numerical Simulation on Gabor Digital Holography -- 3.3.2 Numerical Simulation on On-Axis Digital Holography -- 3.3.3 Numerical Simulation on Off-Axis Digital Holography -- 3.3.4 Numerical Simulation on Interferometry -- 3.3.5 Numerical Simulation on Fresnel Digital Holography -- 3.3.6 Numerical Simulation on Fourier Digital Holography -- 3.3.7 Numerical Simulation on Lateral Shearing Interferometry -- 3.3.8 Numerical Simulation on Phase Unwrapping -- 3.4 Improvements in Holography and Interferometry -- 3.4.1 Improvements in Phase Retrieval Methods -- 3.5 Extensions on Holography and Interferometry -- 3.5.1 Spatial Light Interference Microscopy (SLIM) -- 3.5.2 Quantitative Differential Interference Contrast (DIC) Microscopy -- 3.5.3 Quadriwave Lateral Shearing Interferometry -- 3.5.4 Optical Scanning Holography (OSH) -- 3.5.5 Fresnel Incoherent Correlation Holography (FINCH) -- 3.5.6 Coded Aperture Correlation Holography (COACH).
327   $a3.5.7 Computer-Generated Holography (CGH) -- 3.6 Summary -- References -- 4 Non-interferometric Quantitative Optical Phase Imaging -- 4.1 Coherent Diffraction Imaging -- 4.1.1 G-S Algorithm -- 4.1.2 ER and HIO Algorithms of Fienup -- 4.1.3 Existence of Convergence in Iterative CDI Algorithms -- 4.1.4 Equivalence of ER Algorithm and Steepest-Decent Method -- 4.1.5 Ptychographic Iterative Engine -- 4.1.6 Fourier Ptychographic Microscopy -- 4.1.7 Coherent Modulation Imaging -- 4.2 Transport of Intensity Equation Method -- 4.2.1 Theory of Transport of Intensity Equation and Its Classical Solution -- 4.2.2 Numerical Simulations on TIE Method -- 4.2.3 Important Improvements on Phase Retrieval -- 4.2.4 Important Improvement on Multi-focal Imaging -- 4.2.5 Discussion -- 4.3 Shack-Hartmann Wavefront Sensor -- 4.3.1 Theory of Hartmann and Shack-Hartmann Wavefront Sensors -- 4.3.2 Numerical Simulations on Shack-Hartmann Wavefront Sensor -- 4.3.3 Discussion -- 4.4 Other Quantitative Computational Optical Phase Imaging Techniques -- 4.4.1 Differential Phase Contrast Microscopy -- 4.4.2 Pyramid Wavefront Sensing -- 4.4.3 Moiré Deflectometry -- 4.4.4 Coded Aperture Phase Imaging -- 4.4.5 Phase Diversity -- References -- 5 Typical Applications of Computational Phase Imaging -- 5.1 Measurement of Inner Stress and Deformation -- 5.1.1 Measurement of 3D Stress Around Laser Induced Damage -- 5.1.2 Measurement of Deformation with Digital Holography -- 5.2 Applications of CDI in Optical Engineering -- 5.2.1 Diagnosing the High Power Laser Beam Online with Coherent Modulation Imaging (CMI) -- 5.2.2 Inspection on the Quality of Optical Element with PIE -- 5.3 Computational Optical Phase Imaging in Biomedical Imaging -- 5.3.1 Computational Optical Phase Microscopy in Static Specimen Observation -- 5.3.2 Computational Optical Phase Imaging in Dynamic Specimen Observation.
327   $a5.3.3 Computational Optical Phase Imaging in Hybrid Imaging -- 5.3.4 Computational Optical Phase Imaging in Extended Applications -- 5.3.5 Summary -- 5.4 Computational Optical Phase Imaging for Adaptive Optics -- 5.4.1 Computational Optical Phase Imaging in Optical Aberration Detection -- 5.4.2 Computational Optical Phase Imaging in Deep Imaging Within Complex Scattering Media -- 5.4.3 Summary -- 5.5 Refocusing and Tracking -- 5.5.1 Background -- 5.5.2 Refocusing in Optical Phase Imaging for In-Focus Image Reconstruction -- 5.5.3 Refocusing in Optical Phase Imaging for Depth of View Extension -- 5.5.4 Refocusing in Optical Phase Imaging for Three-Dimensional Particle Tracking -- 5.5.5 Summary -- 5.6 Three-Dimensional (3D) Computational Phase Imaging -- 5.6.1 Classical Optical Diffraction Tomography -- 5.6.2 3D Imaging with Curved Illumination -- 5.6.3 3D Imaging with K-Domain Transform -- 5.6.4 3D Imaging with Ptychography -- 5.7 Summary -- References -- 6 Recent Trends in Computational Optical Phase Imaging -- 6.1 Deep Learning in Computational Optical Phase Imaging -- 6.1.1 Deep Learning Used in Phase Retrieval -- 6.1.2 Deep Learning Used in Computational Optical Phase Imaging Applications -- 6.1.3 Discussions -- 6.2 Point-of-Care Computational Optics Phase Imaging -- 6.2.1 Point-of-Care Digital Holographic Microscopy -- 6.2.2 Point-of-Care Ptychographic Microscopy -- 6.2.3 Point-of-Care Transport of Intensity Phase Microscopy -- 6.2.4 Point-of-Care Differential Phase Contrast Microscopy -- 6.2.5 Discussions -- References.
410  0$aProgress in Optical Science and Photonics 
606   $aImage processing$xDigital techniques
615  0$aImage processing$xDigital techniques.
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702   $aWang$b Shouyu
702   $aVeetil$b Suhas P.
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