SØG - mellem flere end 8 millioner bøger:

Søg på: Titel, forfatter, forlag - gerne i kombination.
Eller blot på isbn, hvis du kender dette.

Viser: Biomedical Optics - Principles and Imaging

Biomedical Optics: Principles and Imaging, 1. udgave
Søgbar e-bog

Biomedical Optics: Principles and Imaging Vital Source e-bog

Lihong V. Wang og Hsin-i Wu
(2012)
John Wiley & Sons
1.558,00 kr.
Leveres umiddelbart efter køb
Biomedical Optics - Principles and Imaging

Biomedical Optics

Principles and Imaging
Lihong V. Wang og Hsin-i Wu
(2007)
Sprog: Engelsk
John Wiley & Sons, Incorporated
888,00 kr.
Bestil nu og få den leveret inden for 2-3 hverdage.

Detaljer om varen

  • 1. Udgave
  • Vital Source searchable e-book (Fixed pages)
  • Udgiver: John Wiley & Sons (September 2012)
  • Forfattere: Lihong V. Wang og Hsin-i Wu
  • ISBN: 9780470177006
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.

A solutions manual is available for instructors; to obtain a copy please email the editorial department at ialine@wiley.com.

Licens varighed:
Bookshelf online: 5 år fra købsdato.
Bookshelf appen: ubegrænset dage fra købsdato.

Udgiveren oplyser at følgende begrænsninger er gældende for dette produkt:
Print: 10 sider kan printes ad gangen
Copy: højest 2 sider i alt kan kopieres (copy/paste)

Detaljer om varen

  • Hardback: 376 sider
  • Udgiver: John Wiley & Sons, Incorporated (Maj 2007)
  • Forfattere: Lihong V. Wang og Hsin-i Wu
  • ISBN: 9780471743040
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.

A solutions manual is available for instructors; to obtain a copy please email the editorial department at ialine@wiley.com.

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.
1.9.References.
1.10.Further readings.
1.11.Problems.
2. RAYLEIGH THEORY AND MIE THEORY FOR A SINGLE SCATTERER.
2.1.Introduction.
2.2.Summary of the Rayleigh theory.
2.3.Numerical example of the Rayleigh theory.
2.4.Summary of the Mie theory.
2.5.Numerical example of the Mie theory.
2.6.Appendix
2.A. Derivation of the Rayleigh theory.
2.7.Appendix
2.B. Derivation of the Mie theory.
2.8.References.
2.9.Further readings.
2.10.Problems.
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.
3.7.Appendix
3.A. Summary of MCML.
3.8.Appendix
3.B. Probability density function.
3.9.References.
3.10.Further readings.
3.11.Problems.
4. CONVOLUTION FOR BROADBEAM RESPONSES.
4.1.Introduction.
4.2.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.
4.7.Appendix
4.A. Summary of CONV.
4.8.References.
4.9.Further readings.
4.10.Problems.
5. RADIATIVE TRANSFER EQUATION AND DIFFUSION THEORY.
5.1.Introduction.
5.2.Definitions of physical quantities.
5.3.Derivation of the radiative transport equation.
5.4.Diffusion theory.
5.5.Boundary conditions.
5.6.Diffuse reflectance.
5.7.Photon propagation regimes.
5.8.References.
5.9.Further readings.
5.10.Problems.
6. HYBRID MODEL OF MONTE CARLO METHOD AND DIFFUSION THEORY.
6.1.Introduction.
6.2.Definition of problem.
6.3.Diffusion theory.
6.4.Hybrid model.
6.5.Numerical computation.
6.6.Computational examples.
6.7.References.
6.8.Further readings.
6.9.Problems.
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.
7.9.References.
7.10.Further readings.
7.11.Problems.
8. BALLISTIC IMAGING AND MICROSCOPY.
8.1.Introduction.
8.2.Characteristics of ballistic light.
8.3.Time-gated imaging.
8.4.Spatial-frequency 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.
8.11.Appendix
8.A. Holography.
8.12.References.
8.13.Further readings.
8.14.Problems.
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.
9.6.Fourier-domain OCT.
9.7.Doppler OCT.
9.8.Group velocity dispersion.
9.9.Monte Carlo modeling of OCT.
9.10.References.
9.11.Further readings.
9.12.Problems.
10. MUELLER OPTICAL COHERENCE TOMOGRAPHY.
10.1.Introduction.
10.2.Mueller calculus versus Jones calculus.
10.3.Polarization state.
10.4.Stokes vector.
10.5.Mueller matrix.
10.6.Mueller matrices for a rotator, a polarizer, and a retarder.
10.7.Measurement of Mueller matrix.
10.8.Jones vector.
10.9.Jones matrix.
10.10.Jones matrices for a rotator, a polarizer, and a retarder.
10.11.Eigenvectors and eigenvalues of Jones matrix.
10.12.Conversion from Jones calculus to Mueller calculus.
10.13.Degree of polarization in OCT.
10.14.Serial Mueller OCT.
10.15.Parallel Mueller OCT.
10.16.References.
10.17.Further readings.
10.18.Problems.
11. DIFFUSE OPTICAL TOMOGRAPHY.
11.1.Introduction.
11.2.Modes of diffuse optical tomography.
11.3.Time-domain system.
11.4.Direct-current system.
11.5.Frequency-domain system.
11.6.Frequency-domain theory: basics.
11.7.Frequency-domain theory: linear image reconstruction.
11.8.Frequency-domain theory: general image reconstruction.
11.9.Appendix
11.A. ART and SIRT.
11.10.References.
11.11.Further readings.
11.12.Problems.
12. PHOTOACOUSTIC TOMOGRAPHY.
12.1.Introduction.
12.2.Motivation for photoacoustic tomography.
12.3.Initial photoacoustic pressure.
12.4.General photoacoustic equation.
12.5.General forward solution.
12.6.Delta-pulse excitation of a slab.
12.7.Delta-pulse excitation of a sphere.
12.8.Finite-duration pulse excitation of a thin slab.
12.9.Finite-duration pulse excitation of a small sphere.
12.10.Dark-field confocal photoacoustic microscopy.
12.11.Synthetic aperture image reconstruction.
12.12.General image reconstruction.
12.13.Appendix
12.A. Derivation of acoustic wave equation.
12.14.Appendix
12.B. Green''s function approach.
12.15.References.
12.16.Further readings.
12.17.Problems.
13. ULTRASOUND-MODULATED OPTICAL TOMOGRAPHY.
13.1.Introduction.
13.2.Mechanisms of ultrasonic modulation of coherent light.
13.3.Time-resolved frequency-swept UOT.
13.4.Frequency-swept UOT with parallel-speckle detection.
13.5.Ultrasonically modulated virtual optical source.
13.6.Reconstruction-based UOT.
13.7.UOT with Fabry-Perot interferometry. Problems. Reading. Furhter Reading. APPENDIX A. DEFINITIONS OF OPTICAL PROPERTIES. APPENDIX B. List of Acronyms. Index.
De oplyste priser er inkl. moms

Senest sete

Polyteknisk Boghandel

har gennem mere end 50 år været studieboghandlen på DTU og en af Danmarks førende specialister i faglitteratur.

 

Vi lagerfører et bredt udvalg af bøger, ikke bare inden for videnskab og teknik, men også f.eks. ledelse, IT og meget andet.

Læs mere her


Trykt eller digital bog?

Ud over trykte bøger tilbyder vi tre forskellige typer af digitale bøger:

 

Vital Source Bookshelf: En velfungerende ebogsplatform, hvor bogen downloades til din computer og/eller mobile enhed.

 

Du skal bruge den gratis Bookshelf software til at læse læse bøgerne - der er indbygget gode værktøjer til f.eks. søgning, overstregning, notetagning mv. I langt de fleste tilfælde vil du samtidig have en sideløbende 1825 dages online adgang. Læs mere om Vital Source bøger

 

Levering: I forbindelse med købet opretter du et login. Når du har installeret Bookshelf softwaren, logger du blot ind og din bog downloades automatisk.

 

 

Adobe ebog: Dette er Adobe DRM ebøger som downloades til din lokale computer eller mobil enhed.

 

For at læse bøgerne kræves særlig software, som understøtter denne type. Softwaren er gratis, men du bør sikre at du har rettigheder til installere software på den maskine du påtænker at anvende den på. Læs mere om Adobe DRM bøger

 

Levering: Et download link sendes pr email umiddelbart efter købet.

 


Ibog: Dette er en online bog som kan læses på udgiverens website. 

Der kræves ikke særlig software, bogen læses i en almindelig browser.

 

Levering: Vores medarbejder sender dig en adgangsnøgle pr email.

 

Vi gør opmærksom på at der ikke er retur/fortrydelsesret på digitale varer.