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Biomedical optics [[electronic resource]] : principles and imaging / / Lihong V. Wang, Hsin-i Wu
Biomedical optics [[electronic resource]] : principles and imaging / / Lihong V. Wang, Hsin-i Wu
Autore Wang Lihong V
Pubbl/distr/stampa Somerset, NJ, USA, : Wiley, 2007
Descrizione fisica 1 online resource (378 p.)
Disciplina 616.07/54
616.0754
Soggetto topico Imaging systems in medicine
Optical detectors
Soggetto genere / forma Electronic books.
ISBN 1-283-64537-8
0-470-17701-2
0-470-17700-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Biomedical Optics: Principles and Imaging; Contents; Preface; 1. Introduction; 1.1. Motivation for Optical Imaging; 1.2. General Behavior of Light in Biological Tissue; 1.3. Basic Physics of Light-Matter Interaction; 1.4. Absorption and its Biological Origins; 1.5. Scattering and its Biological Origins; 1.6. Polarization and its Biological Origins; 1.7. Fluorescence and its Biological Origins; 1.8. Image Characterization; Problems; Reading; Further Reading; 2. Rayleigh Theory and Mie Theory for a Single Scatterer; 2.1. Introduction; 2.2. Summary of Rayleigh Theory
2.3. Numerical Example of Rayleigh Theory2.4. Summary of Mie Theory; 2.5. Numerical Example of Mie Theory; Appendix 2A. Derivation of Rayleigh Theory; Appendix 2B. Derivation of Mie Theory; Problems; Reading; Further Reading; 3. Monte Carlo Modeling of Photon Transport in Biological Tissue; 3.1. Introduction; 3.2. Monte Carlo Method; 3.3. Definition of Problem; 3.4. Propagation of Photons; 3.5. Physical Quantities; 3.6. Computational Examples; Appendix 3A. Summary of MCML; Appendix 3B. Probability Density Function; Problems; Reading; Further Reading; 4. Convolution for Broadbeam Responses
4.1. Introduction4.2. General Formulation of Convolution; 4.3. Convolution over a Gaussian Beam; 4.4. Convolution over a Top-Hat Beam; 4.5. Numerical Solution to Convolution; 4.6. Computational Examples; Appendix 4A. Summary of CONV; Problems; Reading; Further Reading; 5. Radiative Transfer Equation and Diffusion Theory; 5.1. Introduction; 5.2. Definitions of Physical Quantities; 5.3. Derivation of Radiative Transport Equation; 5.4. Diffusion Theory; 5.5. Boundary Conditions; 5.6. Diffuse Reflectance; 5.7. Photon Propagation Regimes; Problems; Reading; Further Reading
6. Hybrid Model of Monte Carlo Method and Diffusion Theory6.1. Introduction; 6.2. Definition of Problem; 6.3. Diffusion Theory; 6.4. Hybrid Model; 6.5. Numerical Computation; 6.6. Computational Examples; Problems; Reading; Further Reading; 7. Sensing of Optical Properties and Spectroscopy; 7.1. Introduction; 7.2. Collimated Transmission Method; 7.3. Spectrophotometry; 7.4. Oblique-Incidence Reflectometry; 7.5. White-Light Spectroscopy; 7.6. Time-Resolved Measurement; 7.7. Fluorescence Spectroscopy; 7.8. Fluorescence Modeling; Problems; Reading; Further Reading
8. Ballistic Imaging and Microscopy8.1. Introduction; 8.2. Characteristics of Ballistic Light; 8.3. Time-Gated Imaging; 8.4. Spatiofrequency-Filtered Imaging; 8.5. Polarization-Difference Imaging; 8.6. Coherence-Gated Holographic Imaging; 8.7. Optical Heterodyne Imaging; 8.8. Radon Transformation and Computed Tomography; 8.9. Confocal Microscopy; 8.10. Two-Photon Microscopy; Appendix 8A. Holography; Problems; Reading; Further Reading; 9. Optical Coherence Tomography; 9.1. Introduction; 9.2. Michelson Interferometry; 9.3. Coherence Length and Coherence Time; 9.4. Time-Domain OCT
9.5. Fourier-Domain Rapid-Scanning Optical Delay Line
Record Nr. UNINA-9910141381003321
Wang Lihong V  
Somerset, NJ, USA, : Wiley, 2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Biomedical optics : principles and imaging / / Lihong V. Wang, Hsin-i Wu
Biomedical optics : principles and imaging / / Lihong V. Wang, Hsin-i Wu
Autore Wang Lihong V
Pubbl/distr/stampa Somerset, NJ, USA, : Wiley, 2007
Descrizione fisica 1 online resource (378 p.)
Disciplina 616.07/54
Soggetto topico Imaging systems in medicine
Optical detectors
Wu, Hsin-i
ISBN 1-283-64537-8
0-470-17701-2
0-470-17700-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Biomedical Optics: Principles and Imaging; Contents; Preface; 1. Introduction; 1.1. Motivation for Optical Imaging; 1.2. General Behavior of Light in Biological Tissue; 1.3. Basic Physics of Light-Matter Interaction; 1.4. Absorption and its Biological Origins; 1.5. Scattering and its Biological Origins; 1.6. Polarization and its Biological Origins; 1.7. Fluorescence and its Biological Origins; 1.8. Image Characterization; Problems; Reading; Further Reading; 2. Rayleigh Theory and Mie Theory for a Single Scatterer; 2.1. Introduction; 2.2. Summary of Rayleigh Theory
2.3. Numerical Example of Rayleigh Theory2.4. Summary of Mie Theory; 2.5. Numerical Example of Mie Theory; Appendix 2A. Derivation of Rayleigh Theory; Appendix 2B. Derivation of Mie Theory; Problems; Reading; Further Reading; 3. Monte Carlo Modeling of Photon Transport in Biological Tissue; 3.1. Introduction; 3.2. Monte Carlo Method; 3.3. Definition of Problem; 3.4. Propagation of Photons; 3.5. Physical Quantities; 3.6. Computational Examples; Appendix 3A. Summary of MCML; Appendix 3B. Probability Density Function; Problems; Reading; Further Reading; 4. Convolution for Broadbeam Responses
4.1. Introduction4.2. General Formulation of Convolution; 4.3. Convolution over a Gaussian Beam; 4.4. Convolution over a Top-Hat Beam; 4.5. Numerical Solution to Convolution; 4.6. Computational Examples; Appendix 4A. Summary of CONV; Problems; Reading; Further Reading; 5. Radiative Transfer Equation and Diffusion Theory; 5.1. Introduction; 5.2. Definitions of Physical Quantities; 5.3. Derivation of Radiative Transport Equation; 5.4. Diffusion Theory; 5.5. Boundary Conditions; 5.6. Diffuse Reflectance; 5.7. Photon Propagation Regimes; Problems; Reading; Further Reading
6. Hybrid Model of Monte Carlo Method and Diffusion Theory6.1. Introduction; 6.2. Definition of Problem; 6.3. Diffusion Theory; 6.4. Hybrid Model; 6.5. Numerical Computation; 6.6. Computational Examples; Problems; Reading; Further Reading; 7. Sensing of Optical Properties and Spectroscopy; 7.1. Introduction; 7.2. Collimated Transmission Method; 7.3. Spectrophotometry; 7.4. Oblique-Incidence Reflectometry; 7.5. White-Light Spectroscopy; 7.6. Time-Resolved Measurement; 7.7. Fluorescence Spectroscopy; 7.8. Fluorescence Modeling; Problems; Reading; Further Reading
8. Ballistic Imaging and Microscopy8.1. Introduction; 8.2. Characteristics of Ballistic Light; 8.3. Time-Gated Imaging; 8.4. Spatiofrequency-Filtered Imaging; 8.5. Polarization-Difference Imaging; 8.6. Coherence-Gated Holographic Imaging; 8.7. Optical Heterodyne Imaging; 8.8. Radon Transformation and Computed Tomography; 8.9. Confocal Microscopy; 8.10. Two-Photon Microscopy; Appendix 8A. Holography; Problems; Reading; Further Reading; 9. Optical Coherence Tomography; 9.1. Introduction; 9.2. Michelson Interferometry; 9.3. Coherence Length and Coherence Time; 9.4. Time-Domain OCT
9.5. Fourier-Domain Rapid-Scanning Optical Delay Line
Record Nr. UNINA-9910877473103321
Wang Lihong V  
Somerset, NJ, USA, : Wiley, 2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui