Fundamentals And Applications Of Biophotonics In Dentistry.

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Biophotonics in dentistry is a rapidly growing area. Unlike other books, this invaluable compendium touches on the fundamental areas in biophotonics. Contributed by world-renowned authors, it provides a basic understanding on a range of topics for individuals of different backgrounds to acquire a mi...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Asundi, Anand (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: World Scientific 2006.
Temas:
Lasers in dentistry.
Photochemotherapy.
Laser spectroscopy.
Photonics.
Photochemotherapy
Lasers en dentisterie.
Photochimiothérapie.
Spectroscopie laser.
Photonique.
Laser spectroscopy
Lasers in dentistry
Photonics
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface; Contents; FUNDAMENTALS; Chapter 1 Introduction; 1.1 Introduction; 1.2 Definition and Significance; 1.3 Classification of Biophotonics in Dentistry; 1.3.1 Diagnostic; 1.3.2 Therapeutic; 1.3.3 Research; 1.4 Future Opportunities; 1.5 Scope of this Book; Chapter 2 Photomechanics; 2.1 Introduction to Mechanics; 2.1.1 Force and Stress; 2.1.2 Deformation and Strain; 2.1.3 Stress-Strain Equations; 2.2 Basic Optical Engineering; 2.2.1 Geometrical Optics; 2.2.2 Physical (Wave) Optics; 2.2.3 Photonics; 2.3 Photomechanics; 2.3.1 Moire and Grid Methods; 2.3.2 Speckle Methods
  • 2.3.3 Photoelasticity2.3.4 Holography; 2.3.5 Digital Photomechanics; 2.4 Concluding Remarks; Chapter 3 Biomedical Imaging; 3.1 Introduction; 3.2 Non-Linear Optical Microscopy (NLOM): Multiphoton Excited Fluorescence (MPEF) and Second Harmonic Generation (SGH); 3.2.1 Principles of NLOM; 3.2.2 Development and Applications of NLOM; 3.2.3 NLOM in Dentistry; 3.3 Optical Coherence Tomography (OCT); 3.3.1 Principles of OCT; 3.3.2 Developments and Applications of OCT; 3.3.3 OCT in Dentistry; 3.4 Coherent Anti-Stokes Raman Scattering (CARS) and Modulated Imaging (MI)
  • 3.5 Fluorescence Contrast Enhancement3.6 Concluding Remarks; Chapter 4 Spectroscopy; 4.1 Introduction; 4.2 Molecular Orbitals and Transitions; 4.3 Transition Dipole Moment; 4.4 Spin Selection Rule; 4.5 Franck-Condon Principle; 4.6 Jablonski Diagram; 4.7 Stokes Shift; 4.8 Spectrophotometry; 4.9 Fluorescence Intensity and Lifetime; 4.10 Spectrofluorimetry; 4.11 Fluorescence Quenching; 4.12 Fluorescence Resonance Energy Transfer (FRET); 4.13 Fourier Transform Infrared (FTIR) Spectroscopy; 4.14 Concluding Remarks; Chapter 5 Lasers and Laser Tissue Interaction; 5.1 Introduction; 5.2 Laser Basics
  • 5.2.1 Characteristics of Lasers5.3 Light Propagation in Tissue; 5.4 Optical Imaging and Diagnosis; 5.4.1 Optical Imaging; 5.4.2 Optical Spectroscopic Diagnosis; 5.5 Optical Processing of Tissue; 5.5.1 Photothermal Effects; 5.5.2 Photomechanical Effects; 5.5.3 Photochemical Effects; 5.5.4 Applications of Laser Processing of Tissue; 5.6 Concluding Remarks; Chapter 6 Mechanisms and Applications of Photodynamic Therapy; 6.1 Historical Background; 6.2 Photosensitizers; 6.3 Light Applicators; 6.4 PDT Mechanisms; 6.4.1 Photophysics and Photochemistry; 6.4.2 Biological Effect; 6.5 PDT Dosimetry
  • 6.6 Progress in Clinical Application6.6.1 Non-Malignant Diseases; 6.6.2 Malignant Diseases; 6.7 PDT in Dentistry; 6.7.1 Technical Challenges; 6.7.2 Current Status; 6.8 Concluding Remarks; APPLICATIONS; Chapter 7 Dental Photo-Biomechanics; 7.1 Introduction; 7.2 Photoelasticity; 7.2.1 Introduction; 7.2.2 Photoelastic Models; 7.2.3 Polariscope; 7.2.4 Photoelastic Fringe Analysis; 7.2.5 Applications of Photoelasticity in Dentistry; 7.3 Moire Interferometry; 7.3.1 Introduction; 7.3.2 Specimen Grating and Moire Interferometer; 7.3.3 Applications of Moire Technique in Dentistry

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