Verfügbarkeit: Principles of diffuse light propagation :

Principles of diffuse light propagation :: light propagation in tissues with applications in biology and medicine /

The main idea behind this book is to present a rigorous derivation of the equations that govern light propagation in highly scattering media, with an emphasis on their applications in imaging in biology and medicine. The equations and formulas for diffuse light propagation are derived from the very...

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1. Verfasser:	Lorenzo, Jorge Ripoll
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore ; Hackensack, NJ : World Scientific, ©2012.
Schlagworte:	Light > Transmission > Mathematical models. Tissues > Optical properties. Optical tomography. Light > Scattering > Mathematical models. Biology. Tomography, Optical Biology Lumière > Propagation > Modèles mathématiques. Tissus (Histologie) > Propriétés optiques. Tomographie optique. Lumière > Diffusion > Modèles mathématiques. Biologie. medicines (material) biology. SCIENCE > Physics > Optics & Light. Light > Scattering > Mathematical models Optical tomography Tissues > Optical properties Physics. Physical Sciences & Mathematics. Light & Optics.
Online-Zugang:	Volltext
Zusammenfassung:	The main idea behind this book is to present a rigorous derivation of the equations that govern light propagation in highly scattering media, with an emphasis on their applications in imaging in biology and medicine. The equations and formulas for diffuse light propagation are derived from the very beginning and all the necessary analytical expressions needed to complete a complex imaging or characterization problem are presented step by step. This book provides postgraduate and PhD students with the basic framework and sufficient knowledge in light transport and the related mathematical methods to solve most complex problems that may appear in biomedical applications involving multiple scattered light. All results presented are formal analytical derivations from the complete problem, presenting, in those cases which are relevant, approximations to these expressions.
Beschreibung:	1 online resource (xvii, 336 pages : illustrations
Bibliographie:	Includes bibliographical references (pages 321-329) and index.
ISBN:	9789814293860 9814293865 1280669179 9781280669170 9786613646101 6613646105

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245	1	0	\|a Principles of diffuse light propagation : \|b light propagation in tissues with applications in biology and medicine / \|c Jorge Ripoll Lorenzo.
260			\|a Singapore ; \|a Hackensack, NJ : \|b World Scientific, \|c ©2012.
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504			\|a Includes bibliographical references (pages 321-329) and index.
505	0		\|a 1. Light absorbers, emitters, and scatterers: the origins of color in nature. 1.1. Introduction. 1.2. The classical picture of light interaction with matter. 1.3. Light absorbers in nature. 1.4. Light emitters in nature. 1.5. Light scatterers in nature. 1.6. Optical molecular imaging -- 2. Scattering and absorption. 2.1. Definition of scattering. 2.2. Poynting's theorem and energy conservation. 2.3. Single scattering. 2.4. Main optical parameters of a particle. 2.5. Multiple scattering. 2.6. Extinction by a slab of absorbing particles. 2.7. Polarization effects. 2.8. Self-averaging -- 3. The Radiative Transfer Equation (RTE). 3.1. Radiative transfer. 3.2. Specific intensity, average intensity and flux. 3.3. The detected power. 3.4. Isotropic emission and its detection. 3.5. Reflectivity and transmissivity. 3.6. Derivation of the radiative transfer equation. 3.7. Some similarity relations of the RTE. 3.8. The RTE and Monte Carlo -- 4. Fick's law and the diffusion approximation. 4.1. Historical background. 4.2. Diffuse light. 4.3. Derivation of the diffusion equation. 4.4. The diffusion equation. 4.5. The mean free path. 4.6. Limits of validity of the diffusion approximation -- 5. The diffusion equation. 5.1. The diffusion equation in infinite homogeneous media. 5.2. Green's functions and Green's Theorem. 5.3. The time-dependent Green's function. 5.4. The constant illumination Green's function. 5.5. Waves of diffuse light. 5.6. The diffusion equation in inhomogeneous media. 5.7. Summary of Green's functions -- 6. Propagation and Spatial Resolution of Diffuse Light. 6.1. Propagation of diffuse light. 6.2. The angular spectrum representation. 6.3. Spatial transfer function and impulse response. 6.4. Spatial resolution. 6.5. Backpropagation of diffuse light -- 7. The point source approximation. 7.1. General solution. 7.2. Solution for a collimated source. 7.3. Point source approximation to a collimated source. 7.4. Accounting for the source profile -- 8. Diffuse light at interfaces. 8.1. Diffusive/Diffusive (D-D) interfaces. 8.2. Diffusive/Non-diffusive (D-N) interfaces. 8.3. Layered diffusive media. 8.4. Multiple layered media. 8.5. The detected power in diffuse media. 8.6. Non-contact measurements -- 9. Fluorescence and bioluminescence in diffuse media: an ill-posed problem. 9.1. Fluorescence in diffuse media. 9.2. Bioluminescence in diffuse media. 9.3. Why is imaging in diffuse media an ill-posed problem? 9.4. Reducing ill-posedness -- 10. Imaging in diffusive media: the inverse problem. 10.1. The forward and inverse problem. 10.2. The born approximation. 10.3. The Rytov approximation. 10.4. The normalized born approximation and the sensitivity matrix. 10.5. Direct inversion formulas.
520			\|a The main idea behind this book is to present a rigorous derivation of the equations that govern light propagation in highly scattering media, with an emphasis on their applications in imaging in biology and medicine. The equations and formulas for diffuse light propagation are derived from the very beginning and all the necessary analytical expressions needed to complete a complex imaging or characterization problem are presented step by step. This book provides postgraduate and PhD students with the basic framework and sufficient knowledge in light transport and the related mathematical methods to solve most complex problems that may appear in biomedical applications involving multiple scattered light. All results presented are formal analytical derivations from the complete problem, presenting, in those cases which are relevant, approximations to these expressions.
588	0		\|a Online resource; title from digital title page (viewed Jun. 4, 2012).
546			\|a English.
650		0	\|a Light \|x Transmission \|x Mathematical models.
650		0	\|a Tissues \|x Optical properties.
650		0	\|a Optical tomography. \|0 http://id.loc.gov/authorities/subjects/sh89007004
650		0	\|a Light \|x Scattering \|x Mathematical models.
650		0	\|a Biology. \|0 http://id.loc.gov/authorities/subjects/sh85014203
650		2	\|a Tomography, Optical \|0 https://id.nlm.nih.gov/mesh/D041622
650		2	\|a Biology \|0 https://id.nlm.nih.gov/mesh/D001695
650		6	\|a Lumière \|x Propagation \|x Modèles mathématiques.
650		6	\|a Tissus (Histologie) \|x Propriétés optiques.
650		6	\|a Tomographie optique.
650		6	\|a Lumière \|x Diffusion \|x Modèles mathématiques.
650		6	\|a Biologie.
650		7	\|a medicines (material) \|2 aat
650		7	\|a biology. \|2 aat
650		7	\|a SCIENCE \|x Physics \|x Optics & Light. \|2 bisacsh
650		7	\|a Light \|x Scattering \|x Mathematical models \|2 fast
650		7	\|a Optical tomography \|2 fast
650		7	\|a Tissues \|x Optical properties \|2 fast
650		7	\|a Physics. \|2 hilcc
650		7	\|a Physical Sciences & Mathematics. \|2 hilcc
650		7	\|a Light & Optics. \|2 hilcc
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contents	1. Light absorbers, emitters, and scatterers: the origins of color in nature. 1.1. Introduction. 1.2. The classical picture of light interaction with matter. 1.3. Light absorbers in nature. 1.4. Light emitters in nature. 1.5. Light scatterers in nature. 1.6. Optical molecular imaging -- 2. Scattering and absorption. 2.1. Definition of scattering. 2.2. Poynting's theorem and energy conservation. 2.3. Single scattering. 2.4. Main optical parameters of a particle. 2.5. Multiple scattering. 2.6. Extinction by a slab of absorbing particles. 2.7. Polarization effects. 2.8. Self-averaging -- 3. The Radiative Transfer Equation (RTE). 3.1. Radiative transfer. 3.2. Specific intensity, average intensity and flux. 3.3. The detected power. 3.4. Isotropic emission and its detection. 3.5. Reflectivity and transmissivity. 3.6. Derivation of the radiative transfer equation. 3.7. Some similarity relations of the RTE. 3.8. The RTE and Monte Carlo -- 4. Fick's law and the diffusion approximation. 4.1. Historical background. 4.2. Diffuse light. 4.3. Derivation of the diffusion equation. 4.4. The diffusion equation. 4.5. The mean free path. 4.6. Limits of validity of the diffusion approximation -- 5. The diffusion equation. 5.1. The diffusion equation in infinite homogeneous media. 5.2. Green's functions and Green's Theorem. 5.3. The time-dependent Green's function. 5.4. The constant illumination Green's function. 5.5. Waves of diffuse light. 5.6. The diffusion equation in inhomogeneous media. 5.7. Summary of Green's functions -- 6. Propagation and Spatial Resolution of Diffuse Light. 6.1. Propagation of diffuse light. 6.2. The angular spectrum representation. 6.3. Spatial transfer function and impulse response. 6.4. Spatial resolution. 6.5. Backpropagation of diffuse light -- 7. The point source approximation. 7.1. General solution. 7.2. Solution for a collimated source. 7.3. Point source approximation to a collimated source. 7.4. Accounting for the source profile -- 8. Diffuse light at interfaces. 8.1. Diffusive/Diffusive (D-D) interfaces. 8.2. Diffusive/Non-diffusive (D-N) interfaces. 8.3. Layered diffusive media. 8.4. Multiple layered media. 8.5. The detected power in diffuse media. 8.6. Non-contact measurements -- 9. Fluorescence and bioluminescence in diffuse media: an ill-posed problem. 9.1. Fluorescence in diffuse media. 9.2. Bioluminescence in diffuse media. 9.3. Why is imaging in diffuse media an ill-posed problem? 9.4. Reducing ill-posedness -- 10. Imaging in diffusive media: the inverse problem. 10.1. The forward and inverse problem. 10.2. The born approximation. 10.3. The Rytov approximation. 10.4. The normalized born approximation and the sensitivity matrix. 10.5. Direct inversion formulas.
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/</subfield><subfield code="c">Jorge Ripoll Lorenzo.</subfield></datafield><datafield tag="260" ind1=" " ind2=" "><subfield code="a">Singapore ;</subfield><subfield code="a">Hackensack, NJ :</subfield><subfield code="b">World Scientific,</subfield><subfield code="c">©2012.</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 online resource (xvii, 336 pages :</subfield><subfield code="b">illustrations</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">computer</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">online resource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="347" ind1=" " ind2=" "><subfield 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Light absorbers, emitters, and scatterers: the origins of color in nature. 1.1. Introduction. 1.2. The classical picture of light interaction with matter. 1.3. Light absorbers in nature. 1.4. Light emitters in nature. 1.5. Light scatterers in nature. 1.6. Optical molecular imaging -- 2. Scattering and absorption. 2.1. Definition of scattering. 2.2. Poynting's theorem and energy conservation. 2.3. Single scattering. 2.4. Main optical parameters of a particle. 2.5. Multiple scattering. 2.6. Extinction by a slab of absorbing particles. 2.7. Polarization effects. 2.8. Self-averaging -- 3. The Radiative Transfer Equation (RTE). 3.1. Radiative transfer. 3.2. Specific intensity, average intensity and flux. 3.3. The detected power. 3.4. Isotropic emission and its detection. 3.5. Reflectivity and transmissivity. 3.6. Derivation of the radiative transfer equation. 3.7. Some similarity relations of the RTE. 3.8. The RTE and Monte Carlo -- 4. Fick's law and the diffusion approximation. 4.1. Historical background. 4.2. Diffuse light. 4.3. Derivation of the diffusion equation. 4.4. The diffusion equation. 4.5. The mean free path. 4.6. Limits of validity of the diffusion approximation -- 5. The diffusion equation. 5.1. The diffusion equation in infinite homogeneous media. 5.2. Green's functions and Green's Theorem. 5.3. The time-dependent Green's function. 5.4. The constant illumination Green's function. 5.5. Waves of diffuse light. 5.6. The diffusion equation in inhomogeneous media. 5.7. Summary of Green's functions -- 6. Propagation and Spatial Resolution of Diffuse Light. 6.1. Propagation of diffuse light. 6.2. The angular spectrum representation. 6.3. Spatial transfer function and impulse response. 6.4. Spatial resolution. 6.5. Backpropagation of diffuse light -- 7. The point source approximation. 7.1. General solution. 7.2. Solution for a collimated source. 7.3. Point source approximation to a collimated source. 7.4. Accounting for the source profile -- 8. Diffuse light at interfaces. 8.1. Diffusive/Diffusive (D-D) interfaces. 8.2. Diffusive/Non-diffusive (D-N) interfaces. 8.3. Layered diffusive media. 8.4. Multiple layered media. 8.5. The detected power in diffuse media. 8.6. Non-contact measurements -- 9. Fluorescence and bioluminescence in diffuse media: an ill-posed problem. 9.1. Fluorescence in diffuse media. 9.2. Bioluminescence in diffuse media. 9.3. Why is imaging in diffuse media an ill-posed problem? 9.4. Reducing ill-posedness -- 10. Imaging in diffusive media: the inverse problem. 10.1. The forward and inverse problem. 10.2. The born approximation. 10.3. The Rytov approximation. 10.4. The normalized born approximation and the sensitivity matrix. 10.5. Direct inversion formulas.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">The main idea behind this book is to present a rigorous derivation of the equations that govern light propagation in highly scattering media, with an emphasis on their applications in imaging in biology and medicine. The equations and formulas for diffuse light propagation are derived from the very beginning and all the necessary analytical expressions needed to complete a complex imaging or characterization problem are presented step by step. This book provides postgraduate and PhD students with the basic framework and sufficient knowledge in light transport and the related mathematical methods to solve most complex problems that may appear in biomedical applications involving multiple scattered light. 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spelling	Lorenzo, Jorge Ripoll. Principles of diffuse light propagation : light propagation in tissues with applications in biology and medicine / Jorge Ripoll Lorenzo. Singapore ; Hackensack, NJ : World Scientific, ©2012. 1 online resource (xvii, 336 pages : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier data file rda Bibliography Includes bibliographical references (pages 321-329) and index. 1. Light absorbers, emitters, and scatterers: the origins of color in nature. 1.1. Introduction. 1.2. The classical picture of light interaction with matter. 1.3. Light absorbers in nature. 1.4. Light emitters in nature. 1.5. Light scatterers in nature. 1.6. Optical molecular imaging -- 2. Scattering and absorption. 2.1. Definition of scattering. 2.2. Poynting's theorem and energy conservation. 2.3. Single scattering. 2.4. Main optical parameters of a particle. 2.5. Multiple scattering. 2.6. Extinction by a slab of absorbing particles. 2.7. Polarization effects. 2.8. Self-averaging -- 3. The Radiative Transfer Equation (RTE). 3.1. Radiative transfer. 3.2. Specific intensity, average intensity and flux. 3.3. The detected power. 3.4. Isotropic emission and its detection. 3.5. Reflectivity and transmissivity. 3.6. Derivation of the radiative transfer equation. 3.7. Some similarity relations of the RTE. 3.8. The RTE and Monte Carlo -- 4. Fick's law and the diffusion approximation. 4.1. Historical background. 4.2. Diffuse light. 4.3. Derivation of the diffusion equation. 4.4. The diffusion equation. 4.5. The mean free path. 4.6. Limits of validity of the diffusion approximation -- 5. The diffusion equation. 5.1. The diffusion equation in infinite homogeneous media. 5.2. Green's functions and Green's Theorem. 5.3. The time-dependent Green's function. 5.4. The constant illumination Green's function. 5.5. Waves of diffuse light. 5.6. The diffusion equation in inhomogeneous media. 5.7. Summary of Green's functions -- 6. Propagation and Spatial Resolution of Diffuse Light. 6.1. Propagation of diffuse light. 6.2. The angular spectrum representation. 6.3. Spatial transfer function and impulse response. 6.4. Spatial resolution. 6.5. Backpropagation of diffuse light -- 7. The point source approximation. 7.1. General solution. 7.2. Solution for a collimated source. 7.3. Point source approximation to a collimated source. 7.4. Accounting for the source profile -- 8. Diffuse light at interfaces. 8.1. Diffusive/Diffusive (D-D) interfaces. 8.2. Diffusive/Non-diffusive (D-N) interfaces. 8.3. Layered diffusive media. 8.4. Multiple layered media. 8.5. The detected power in diffuse media. 8.6. Non-contact measurements -- 9. Fluorescence and bioluminescence in diffuse media: an ill-posed problem. 9.1. Fluorescence in diffuse media. 9.2. Bioluminescence in diffuse media. 9.3. Why is imaging in diffuse media an ill-posed problem? 9.4. Reducing ill-posedness -- 10. Imaging in diffusive media: the inverse problem. 10.1. The forward and inverse problem. 10.2. The born approximation. 10.3. The Rytov approximation. 10.4. The normalized born approximation and the sensitivity matrix. 10.5. Direct inversion formulas. The main idea behind this book is to present a rigorous derivation of the equations that govern light propagation in highly scattering media, with an emphasis on their applications in imaging in biology and medicine. The equations and formulas for diffuse light propagation are derived from the very beginning and all the necessary analytical expressions needed to complete a complex imaging or characterization problem are presented step by step. This book provides postgraduate and PhD students with the basic framework and sufficient knowledge in light transport and the related mathematical methods to solve most complex problems that may appear in biomedical applications involving multiple scattered light. All results presented are formal analytical derivations from the complete problem, presenting, in those cases which are relevant, approximations to these expressions. Online resource; title from digital title page (viewed Jun. 4, 2012). English. Light Transmission Mathematical models. Tissues Optical properties. Optical tomography. http://id.loc.gov/authorities/subjects/sh89007004 Light Scattering Mathematical models. Biology. http://id.loc.gov/authorities/subjects/sh85014203 Tomography, Optical https://id.nlm.nih.gov/mesh/D041622 Biology https://id.nlm.nih.gov/mesh/D001695 Lumière Propagation Modèles mathématiques. Tissus (Histologie) Propriétés optiques. Tomographie optique. Lumière Diffusion Modèles mathématiques. Biologie. medicines (material) aat biology. aat SCIENCE Physics Optics & Light. bisacsh Light Scattering Mathematical models fast Optical tomography fast Tissues Optical properties fast Physics. hilcc Physical Sciences & Mathematics. hilcc Light & Optics. hilcc has work: Principles of diffuse light propagation (Text) https://id.oclc.org/worldcat/entity/E39PCGy44CHMKg69K4y7HPgJCP https://id.oclc.org/worldcat/ontology/hasWork Print version: Lorenzo, Jorge Ripoll. Principles of diffuse light propagation. Singapore ; Hackensack, N.J. : World Scientific, ©2012 9789814293761 (OCoLC)502034692 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=457234 Volltext
spellingShingle	Lorenzo, Jorge Ripoll Principles of diffuse light propagation : light propagation in tissues with applications in biology and medicine / 1. Light absorbers, emitters, and scatterers: the origins of color in nature. 1.1. Introduction. 1.2. The classical picture of light interaction with matter. 1.3. Light absorbers in nature. 1.4. Light emitters in nature. 1.5. Light scatterers in nature. 1.6. Optical molecular imaging -- 2. Scattering and absorption. 2.1. Definition of scattering. 2.2. Poynting's theorem and energy conservation. 2.3. Single scattering. 2.4. Main optical parameters of a particle. 2.5. Multiple scattering. 2.6. Extinction by a slab of absorbing particles. 2.7. Polarization effects. 2.8. Self-averaging -- 3. The Radiative Transfer Equation (RTE). 3.1. Radiative transfer. 3.2. Specific intensity, average intensity and flux. 3.3. The detected power. 3.4. Isotropic emission and its detection. 3.5. Reflectivity and transmissivity. 3.6. Derivation of the radiative transfer equation. 3.7. Some similarity relations of the RTE. 3.8. The RTE and Monte Carlo -- 4. Fick's law and the diffusion approximation. 4.1. Historical background. 4.2. Diffuse light. 4.3. Derivation of the diffusion equation. 4.4. The diffusion equation. 4.5. The mean free path. 4.6. Limits of validity of the diffusion approximation -- 5. The diffusion equation. 5.1. The diffusion equation in infinite homogeneous media. 5.2. Green's functions and Green's Theorem. 5.3. The time-dependent Green's function. 5.4. The constant illumination Green's function. 5.5. Waves of diffuse light. 5.6. The diffusion equation in inhomogeneous media. 5.7. Summary of Green's functions -- 6. Propagation and Spatial Resolution of Diffuse Light. 6.1. Propagation of diffuse light. 6.2. The angular spectrum representation. 6.3. Spatial transfer function and impulse response. 6.4. Spatial resolution. 6.5. Backpropagation of diffuse light -- 7. The point source approximation. 7.1. General solution. 7.2. Solution for a collimated source. 7.3. Point source approximation to a collimated source. 7.4. Accounting for the source profile -- 8. Diffuse light at interfaces. 8.1. Diffusive/Diffusive (D-D) interfaces. 8.2. Diffusive/Non-diffusive (D-N) interfaces. 8.3. Layered diffusive media. 8.4. Multiple layered media. 8.5. The detected power in diffuse media. 8.6. Non-contact measurements -- 9. Fluorescence and bioluminescence in diffuse media: an ill-posed problem. 9.1. Fluorescence in diffuse media. 9.2. Bioluminescence in diffuse media. 9.3. Why is imaging in diffuse media an ill-posed problem? 9.4. Reducing ill-posedness -- 10. Imaging in diffusive media: the inverse problem. 10.1. The forward and inverse problem. 10.2. The born approximation. 10.3. The Rytov approximation. 10.4. The normalized born approximation and the sensitivity matrix. 10.5. Direct inversion formulas. Light Transmission Mathematical models. Tissues Optical properties. Optical tomography. http://id.loc.gov/authorities/subjects/sh89007004 Light Scattering Mathematical models. Biology. http://id.loc.gov/authorities/subjects/sh85014203 Tomography, Optical https://id.nlm.nih.gov/mesh/D041622 Biology https://id.nlm.nih.gov/mesh/D001695 Lumière Propagation Modèles mathématiques. Tissus (Histologie) Propriétés optiques. Tomographie optique. Lumière Diffusion Modèles mathématiques. Biologie. medicines (material) aat biology. aat SCIENCE Physics Optics & Light. bisacsh Light Scattering Mathematical models fast Optical tomography fast Tissues Optical properties fast Physics. hilcc Physical Sciences & Mathematics. hilcc Light & Optics. hilcc
subject_GND	http://id.loc.gov/authorities/subjects/sh89007004 http://id.loc.gov/authorities/subjects/sh85014203 https://id.nlm.nih.gov/mesh/D041622 https://id.nlm.nih.gov/mesh/D001695
title	Principles of diffuse light propagation : light propagation in tissues with applications in biology and medicine /
title_auth	Principles of diffuse light propagation : light propagation in tissues with applications in biology and medicine /
title_exact_search	Principles of diffuse light propagation : light propagation in tissues with applications in biology and medicine /
title_full	Principles of diffuse light propagation : light propagation in tissues with applications in biology and medicine / Jorge Ripoll Lorenzo.
title_fullStr	Principles of diffuse light propagation : light propagation in tissues with applications in biology and medicine / Jorge Ripoll Lorenzo.
title_full_unstemmed	Principles of diffuse light propagation : light propagation in tissues with applications in biology and medicine / Jorge Ripoll Lorenzo.
title_short	Principles of diffuse light propagation :
title_sort	principles of diffuse light propagation light propagation in tissues with applications in biology and medicine
title_sub	light propagation in tissues with applications in biology and medicine /
topic	Light Transmission Mathematical models. Tissues Optical properties. Optical tomography. http://id.loc.gov/authorities/subjects/sh89007004 Light Scattering Mathematical models. Biology. http://id.loc.gov/authorities/subjects/sh85014203 Tomography, Optical https://id.nlm.nih.gov/mesh/D041622 Biology https://id.nlm.nih.gov/mesh/D001695 Lumière Propagation Modèles mathématiques. Tissus (Histologie) Propriétés optiques. Tomographie optique. Lumière Diffusion Modèles mathématiques. Biologie. medicines (material) aat biology. aat SCIENCE Physics Optics & Light. bisacsh Light Scattering Mathematical models fast Optical tomography fast Tissues Optical properties fast Physics. hilcc Physical Sciences & Mathematics. hilcc Light & Optics. hilcc
topic_facet	Light Transmission Mathematical models. Tissues Optical properties. Optical tomography. Light Scattering Mathematical models. Biology. Tomography, Optical Biology Lumière Propagation Modèles mathématiques. Tissus (Histologie) Propriétés optiques. Tomographie optique. Lumière Diffusion Modèles mathématiques. Biologie. medicines (material) biology. SCIENCE Physics Optics & Light. Light Scattering Mathematical models Optical tomography Tissues Optical properties Physics. Physical Sciences & Mathematics. Light & Optics.
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work_keys_str_mv	AT lorenzojorgeripoll principlesofdiffuselightpropagationlightpropagationintissueswithapplicationsinbiologyandmedicine

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