Biomedical Optics: Principles and Imaging
Lihong V. Wang, Hsin?I Wu(auth.) A solutions manual is available for instructors; to obtain a copy please email the editorial department at ialine@wiley.com.Content:
Chapter 1 Introduction (pages 1–15):
Chapter 2 Rayleigh Theory and Mie Theory for a Single Scatterer (pages 17–35):
Chapter 3 Monte Carlo Modeling of Photon Transport in Biological Tissue (pages 37–65):
Chapter 4 Convolution for Broadbeam Responses (pages 67–82):
Chapter 5 Radiative Transfer Equation and Diffusion Theory (pages 83–118):
Chapter 6 Hybrid Model of Monte Carlo Method and Diffusion Theory (pages 119–134):
Chapter 7 Sensing of Optical Properties and Spectroscopy (pages 135–151):
Chapter 8 Ballistic Imaging and Microscopy (pages 153–179):
Chapter 9 Optical Coherence Tomography (pages 181–218):
Chapter 10 Mueller Optical Coherence Tomography (pages 219–247):
Chapter 11 Diffuse Optical Tomography (pages 249–281):
Chapter 12 Photoacoustic Tomography (pages 283–321):
Chapter 13 Ultrasound?Modulated Optical Tomography (pages 323–341):