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911183049 |
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OCoLC |
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20210116032358.7 |
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m o d |
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cr cnu---unuuu |
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150618s2015 ne o 001 0 eng d |
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|a 9780128024829
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|z 9780128022849
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|a (OCoLC)911183049
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|a 621.36
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|a Progress in optics.
|n Volume 60 /
|c edited by E. Wolf.
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|a Amsterdam, The Netherlands :
|b Elsevier,
|c 2015.
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|a 1 online resource (xii, 632 pages)
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|a text
|b txt
|2 rdacontent.
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|a online resource
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|a Includes indexes.
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|a Print version record.
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|a Front Cover; Progress in Optics ; Copyright; Contents; Contributors; Preface; Acknowledgement; Chapter 1: Quantum State Engineering: Generation of Single and Pairs of Photons; 1. Introduction; 2. Fock States; 3. The Problem of Localizing Photons; 4. Antibunching of Single-Photon States; 5. Photon Statistics and Spectral Purity; 6. The Purcell Effect and the Control of Emission of Electromagnetic Radiation; 7. Preparation of Single-Photon States: Quantum Engineering; 8. Realization of Single-Photon Sources; 8.1. Strongly Attenuated Sources.
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|a 8.2. Single-Photon Sources Emitting one Photon in a Random Way8.2.1. Fluorescence from Single Atoms or Molecules; 8.2.2. Single-Photon Emitting Mesoscopic p-n Junctions; 8.2.3. Atoms Inside a Microcavity; 8.2.4. Semiconductor Quantum Dots; 8.2.5. Individual Nitrogen-Vacancy Color Centers in Diamond and Other Defect Centers; 8.3. Single-Photon Sources on Demand; 9. Entangled States; 10. Plasmonic Sources; 11. Application to Quantum Information Processing; 12. Conclusions; Addendum; References; Chapter Two: Recent Advances in Optical Image Processing; 1. General Introduction.
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|a 2. Part A: Digital Versus Optical Processing2.1. Introduction; 2.2. From Light to Image Formation; 2.3. Digital Image Processing; 2.3.1. Merits and Drawbacks of DIP; 2.3.2. Moiré Correction; 2.3.3. Wiener Filtering; 2.3.4. Compression and Encryption; 2.3.4.1. Compression; 2.3.4.2. Digital Encryption; 2.4. Optical Image Processing; 2.4.1. Imaging Systems and Applications; 2.4.1.1. Image Sensor; 2.4.1.2. Imaging Systems: In Vivo Brain Optical Imaging System Using Vertical Cavity Surface-Emitting Lasers as a Light S...
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|a 2.4.1.3. Imaging Systems: Calibration of a Digital In-line Holographic Microscopy System: Depth of Focus and Bioprocess A...2.4.2. Toward a Super Imaging System; 2.4.3. Image Detection, Identification, and Localization; 2.4.3.1. Optical Correlation; 2.4.3.2. Why Correlation Is Useful for OIP?; 2.4.3.3. Discussion; 2.4.4. Numerical Implementation of a VLC Based on the Fraunhofer Diffraction and Numerical Implementation of the Optical FT; 2.4.4.1. Adapted All-Numerical Correlator for Face Recognition Applications; 2.4.4.2. Unitary Discrete LCT: Analysis and Application.
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|a 2.4.5. Extending the Depth of Focus in Tomography Systems for Glass Lattice Three-Dimensional Mapping2.4.6. Spectral Imager: Information Capacity as a Figure of Merit for Spectral Imagers; 3. Part B: OIP; 3.1. Optical Fourier Transform for Medical Image Processing and Phase Contrast Imaging; 3.1.1. Spatial Filtering for Medical Image Processing; 3.1.2. Photoinduced Anisotropy for Medical Image Processing; 3.1.3. Fourier Holography; 3.1.3.1. Phase-Shifting Interferometry Digital Holography; 3.1.3.2. Application for Medical Image Processing.
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|a The <i>Progress in Optics</i> series contains 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. <br><br><ul><li>Comprehensive, in-depth reviews</li><li>Edited by the leading authority in the field</li></ul>
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|a Optics.
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|a TECHNOLOGY & ENGINEERING / Mechanical.
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|a Optics.
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|a Electronic books.
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|a Wolf, Emil,
|e editor.
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|a ScienceDirect (Online service)
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|a Loaded with m2btab.ltiac in 2021.04
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|z Click here for access
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