Optical coherence tomography : principles and applications /

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This book gives a broad treatment of the subject which will include 1)the optics, science, and physics needed to understand the technology 2)a description of applications with a critical look at how the technology will successfully address actual clinical need, and 3) a discussion of delivery of OCT...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Brezinski, Mark E.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam ; Boston : Academic Press, �2006.
Temas:
Optical tomography.
Optical tomography > Technological innovations.
Optical coherence tomography.
Tomography, Optical Coherence
Tomography, Optical
Tomographie optique.
Tomographie optique > Innovations.
Tomographie optique coh�erente.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Foreword; Section I:The Basics (math, waves, etc.) for the Nonphysical Scientist; Light and Electromagnetic Waves; Light in Matter; Interference, Coherence, Diffraction, and Transfer Functions; Section II: Optical Coherence Tomography: Theory; Optoelectronics And Optical Components; Noise and System Performance with TD-OCT and SD-OCT; Polarization and Polarization Sensitive OCT (PS-OCT); Adjuvant Techniques: Absorption Spectroscopy, Contrast Probes, Phase Contrast, Elastography, and Entangled Photons; Doppler Optical Coherence Tomography; Digital Image Processing Techniques for Speckle Reduction, Enhancement and Segmentation of Optical Coherence Tomography (OCT) Images; Section III: Application of OCT to Clinical Imaging: Introduction; Other Technologies; Introduction to Clinical Research Design and Analysis; OCT in Cardiovascular Medicine; OCT in Musculoskeletal Disease; OCT in Oncology; Other Applications and Conclusions; Index.
  • The basics (math, waves, etc.) for the nonphysical scientist
  • Light and electromagnetic waves
  • Light in matter
  • Interference, coherence, diffraction, and transfer functions
  • Optical coherence tomography theory
  • Optoelectronics and optical components
  • Noise and system performance with TD-OCT and SD-OCT
  • Polarization and polarization sensitive OCT
  • Adjuvant techniques: absorption spectroscopy, contrast probes, phase contrast, elastography, and entangled photons
  • Doppler optical coherence tomography
  • Digital image processing techniques for speckle reduction, enhancement, and segmentation of optical coherence tomography (OCT) images
  • Application of OCT to clinical imaging: introduction
  • Other technologies
  • Introduction to clinical research design and analysis
  • OCT in cardiovascular medicine
  • OCT in musculoskeletal disease
  • OCT in oncology.

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