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Principles of biophotonics. Volume 3, Field propagation in linear, homogeneous, dispersionless, isotropic media /

This volume aims to familiarize the reader with basic concepts of light propagation in the simplest class of media: linear, homogenous, dispersionless, and isotropic.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Popescu, Gabriel, 1971- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2022]
Colección:IOP (Series). Release 22.
IPEM-IOP series in physics and engineering in medicine and biology.
IOP ebooks. 2022 collection.
Temas:
Acceso en línea:Texto completo

MARC

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100 1 |a Popescu, Gabriel,  |d 1971-  |e author. 
245 1 0 |a Principles of biophotonics.  |n Volume 3,  |p Field propagation in linear, homogeneous, dispersionless, isotropic media /  |c Gabriel Popescu. 
246 3 0 |a Field propagation in linear, homogeneous, dispersionless, isotropic media. 
264 1 |a Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :  |b IOP Publishing,  |c [2022] 
300 |a 1 online resource (various pagings) :  |b illustrations (some color). 
336 |a text  |2 rdacontent 
337 |a electronic  |2 isbdmedia 
338 |a online resource  |2 rdacarrier 
490 1 |a [IOP release $release] 
490 1 |a IPEM-IOP series in physics and engineering in medicine and biology 
490 1 |a IOP ebooks. [2022 collection] 
500 |a "Version: 20221201"--Title page verso. 
504 |a Includes bibliographical references. 
505 0 |a 1. Maxwell's equation in integral form -- 1.1. Faraday's law -- 1.2. Ampère's law -- 1.3. Gauss's law for electric fields -- 1.4. Gauss's law for magnetic fields -- 1.5. Problems 
505 8 |a 2. Maxwell's equations in differential form -- 2.1. The four main equations -- 2.2. Constitutive relations -- 2.3. Maxwell's equations in other representations -- 2.4. Classification of optical materials -- 2.5. Boundary conditions -- 2.6. Reflection and refraction at boundaries -- 2.7. Characteristic impedance -- 2.8. Poynting theorem and energy conservation -- 2.9. Phase, group, and energy velocity -- 2.10. The wave equation -- 2.11. Wave equation in other representations -- 2.12. Problems 
505 8 |a 3. Propagation of electromagnetic fields -- 3.1. Dyadic Green's function -- 3.2. Electric dipole radiation -- 3.3. Magnetic dipole radiation -- 3.4. Problems 
505 8 |a 4. Propagation of scalar fields in free space -- 4.1. Primary and secondary sources -- 4.2. 1D Green's function : plane wave -- 4.3. 2D Green's function : cylindrical wave -- 4.4. 3D Green's function : spherical wave -- 4.5. Problems 
505 8 |a 5. Diffraction of scalar fields -- 5.1. Diffraction by a 2D object -- 5.2. Plane wave decomposition of spherical waves : Weyl's formula -- 5.3. Angular spectrum propagation approximation -- 5.4. Fresnel approximation -- 5.5. Fraunhofer approximation -- 5.6. Fourier properties of lenses -- 5.7. Problems 
505 8 |a 6. Geometrical optics -- 6.1. Applicability of geometrical optics -- 6.2. WKB approximation : eikonal equation and geometrical optics -- 6.3. Fermat's principle -- 6.4. Refraction through curved surfaces -- 6.5. Reflection by curved mirrors -- 6.6. Ray propagation (ABCD) matrices -- 6.7. Problems 
505 8 |a 7. Gaussian beam propagation -- 7.1. Definition of a light beam -- 7.2. Fresnel propagation of Gaussian beams -- 7.3. Gaussian beam characteristics -- 7.4. Gaussian beam propagation using ABCD matrices -- 7.5. Problems 
505 8 |a 8. Propagation of field correlations -- 8.1. Heisenberg uncertainty relation and the coherence of light -- 8.2. Spatiotemporal field correlations -- 8.3. Coherence mode decomposition of random fields -- 8.4. Deterministic signal associated with a random stationary field -- 8.5. Propagation of field correlations : intuitive picture -- 8.6. Stochastic wave equation -- 8.7. Wave equation for the deterministic signal associated with a random field -- 8.8. Propagation of spatial coherence : van Cittert-Zernike theorem -- 8.9. Problems. 
520 3 |a This volume aims to familiarize the reader with basic concepts of light propagation in the simplest class of media: linear, homogenous, dispersionless, and isotropic. 
521 |a Students, instructors, and professionals who are active at the interface between biology, medicine, and optics. 
530 |a Also available in print. 
538 |a Mode of access: World Wide Web. 
538 |a System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader. 
545 |a Gabriel Popescu is the William L. Everitt Distinguished Professor of Electrical and Computer Engineering at the University of Illinois Urbana-Champaign. He received his PhD in optics in 2002 from CREOL, The College of Optics and Photonics, University of Central Florida.  
588 0 |a Title from PDF title page (viewed on January 9, 2023). 
650 0 |a Biophotometry. 
650 0 |a Photonics  |x Industrial applications. 
650 0 |a Photonics  |x Therapeutic use. 
650 0 |a Biomedical engineering. 
650 0 |a Light. 
650 1 2 |a Biomedical Engineering. 
650 1 2 |a Optical Phenomena. 
650 2 2 |a Light. 
650 2 2 |a Optical Imaging. 
650 2 2 |a Optics and Photonics  |x methods. 
650 7 |a Biomedical engineering.  |2 bicssc 
650 7 |a TECHNOLOGY & ENGINEERING / Biomedical.  |2 bisacsh 
710 2 |a Institute of Physics (Great Britain),  |e publisher. 
776 0 8 |i Print version:  |z 9780750316453  |z 9780750319546 
830 0 |a IOP (Series).  |p Release 22. 
830 0 |a IPEM-IOP series in physics and engineering in medicine and biology. 
830 0 |a IOP ebooks.  |p 2022 collection. 
856 4 0 |u https://iopscience.uam.elogim.com/book/mono/978-0-7503-1646-0  |z Texto completo