Biomedical Optics : Principles and Imaging
Lihong V. Wang
Bok Engelsk 2012 · Electronic books.
| Annen tittel | |
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| Utgitt | Hoboken : : Wiley, , 2012.
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| Omfang | 1 online resource (378 p.)
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| Opplysninger | Description based upon print version of record.. - 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. - This entry-level textbook, covering the area of tissue optics, is based on the lecture notes for a graduate course (Bio-optical Imaging) that has been taught six times by the authors at Texas A&M University. After the fundamentals of photon transport in biological tissues are established, various optical imaging techniques for biological tissues are covered. The imaging modalities include ballistic imaging, quasi-ballistic imaging (optical coherence tomography), diffusion imaging, and ultrasound-aided hybrid imaging. The basic physics and engineering of each imaging technique are emphasized.<p
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| Emner | Imaging systems in medicine
Lasers in medicine Optical detectors Analytical, Diagnostic and Therapeutic Techniques and Equipment Vis mer... Diagnosis
Diagnostic Imaging Diagnostic Techniques and Procedures Disciplines and Occupations Electromagnetic Phenomena Engineering Investigative Techniques Light Methods Models, Theoretical Natural Science Disciplines Optical Phenomena Optics and Photonics Phenomena and Processes Physical Phenomena Physics Radiation Radiation, Nonionizing Technology, Industry, Agriculture Technology, Industry, and Agriculture Tomography Tomography, Optical Diagnostic Imaging - methods. Optics. Tomography, Optical - methods. Biomedical Engineering Biomedisin Health & Biological Sciences Optikk biomedisinsk optikk biofotonikk pensum tfe4235 |
| Sjanger | |
| Dewey | |
| ISBN | 0471743046. - 9780471743040
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