Progress in optics. Volume 57 /

In the 50 years since the first volume of Progress in Optics was published, optics has become one of the most dynamic fields of science. The volumes in this series that have appeared up to now contain more than 300 review articles by distinguished research workers, which have become permanent record...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Wolf, Emil
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford : Elsevier, 2012.
Colección:Progress in Optics.
Temas:
Optics.
Optics > Research.
Optique.
Optique > Recherche.
optics.
SCIENCE > Physics > Optics & Light.
Optics
Optics > Research
Acceso en línea:Texto completo

MARC

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245 0 0 |a Progress in optics.  |n Volume 57 /  |c edited by E. Wolf. 
260 |a Oxford :  |b Elsevier,  |c 2012. 
300 |a 1 online resource (ix, 363 pages) :  |b illustrations. 
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490 1 |a Progress in optics ;  |v v. 57 
504 |a Includes bibliographical references and index. 
520 |a In the 50 years since the first volume of Progress in Optics was published, optics has become one of the most dynamic fields of science. The volumes in this series that have appeared up to now contain more than 300 review articles by distinguished research workers, which have become permanent records for many important developments, helping optical scientists and optical engineers stay abreast of their fields. Comprehensive, in-depth reviewsEdited by the leading authority in the field. 
505 0 |a FrontCover; Progress In Optics; Copyrightpage; Contributors; Table of Contents; Preface; The Microscope in a Computer: Image Synthesis from Three-Dimensional Full-Vector Solutions of Maxwell's Equations at the Nanometer Scale; 1. Introduction; 2. Basic Principles of Electromagnetics and Optical Coherence; 3. Structure of the Optical Imaging System; 3.1 Illumination; 3.1.1 Coherent Illumination; 3.1.2 Incoherent Illumination; Anchor 8; 3.2.1 Modal Methods; 3.2.2 Finite Methods; 3.3 Collection; 3.3.1 Fourier Analysis; 3.3.2 Green's-Function Formalism; 3.4 Refocusing; 3.4.1 Periodic Scatterers 
505 8 |a 3.4.2 Non-periodic Scatterers4. Implementation Examples; 5. Summary; Acknowledgments; References; Microstructures andNanostructures in Nature; 1. Introduction; 2. Sample Preparation and Electron Microscopy; 3. Microstructures and Nanostructures of Selected Natural Objects; 4. Discussion; 5. Conclusion; Acknowledgments; References; Quantitative Phase Imaging; 1. Introduction; 2. The Physical Significance of the Measurable Phase; 2.1 Deterministic Fields: Monochromatic Plane Waves; 2.2 Random Fields: Spatially and Temporally Broadband; 2.3 Coherence Time and Area as Inverse Bandwidths 
505 8 |a 2.4 Stochastic Wave Equation2.5 Deterministic Signal Associated with a Random Field; 2.6 van Cittert-Zernike Theorem; 2.7 The Phase of Cross-correlations as the Measurable Quantity; 3. Principles of Full-field QPI; 3.1 Figures of Merit in QPI; 3.1.1 Temporal Sampling: Acquisition Rate; 3.1.2 Spatial Sampling: Transverse Resolution; 3.1.3 Temporal Stability: Temporal Phase Sensitivity; 3.1.4 Spatial Uniformity: Spatial Phase Sensitivity; 3.1.5 Summary of QPI Approaches and Figures of Merit; 3.2 Off-axis QPI Methods; 3.2.1 Digital Holographic Microscopy (DHM); 3.2.1.1 Principle 
505 8 |a 3.2.1.2 Applications3.2.2 Hilbert Phase Microscopy (HPM); 3.2.2.1 Principle; 3.2.2.2 Applications; 3.3 Phase-Shifting QPI Methods; 3.3.1 Digitally Recorded Interference Microscopy with Automatic Phase-Shifting (DRIMAPS); 3.3.1.1 Principle; 3.3.1.2 Applications; 3.3.2 Optical Quadrature Microscopy (OQM); 3.3.2.1 Principle; 3.3.2.2 Applications; 3.4 Common-Path QPI Methods; 3.4.1 Fourier Phase Microscopy (FPM); 3.4.1.1 Principle; 3.4.1.2 Applications; 3.4.2 Diffraction Phase Microscopy (DPM); 3.4.2.1 Principle; 3.4.2.2 Applications; 3.5 White-Light QPI Methods 
505 8 |a 3.5.1 White-Light Diffraction Phase Microscopy (wDPM)3.5.1.1 Principle; 3.5.1.2 Applications; 3.5.2 Spatial Light Interference Microscopy (SLIM); 3.5.3 Instantaneous Spatial Light Interference Microscopy (iSLIM); 3.5.3.1 Principle; 3.5.3.2 Applications; 3.5.4 QPI Using the Transport of Intensity Equation (TIE); 3.5.4.1 Principle; 3.5.4.2 Biological applications; 4. Spatial Light Interference Microscopy; 4.1 Principle; 4.2 Experimental Setup; 4.3 Applications; 4.3.1 Topography and Refractometry; 4.3.2 Laplace Phase Microscopy; 4.3.3 Cell Dynamics; 4.3.4 Cell Growth 
546 |a English. 
650 0 |a Optics. 
650 0 |a Optics  |x Research. 
650 6 |a Optique.  |0 (CaQQLa)201-0005169 
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830 0 |a Progress in Optics. 
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