Laser interaction with biological material : mathematical modeling
Author(s)
Bibliographic Information
Laser interaction with biological material : mathematical modeling
(Biological and medical physics, biomedical engineering)
Springer, c2014
Available at 1 libraries
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
This book covers the principles of laser interaction with biological cells and tissues of varying degrees of organization. The problems of biomedical diagnostics are considered. Scattering of laser irradiation of blood cells is modeled for biological structures (dermis, epidermis, vascular plexus). An analytic theory is provided which is based on solving the wave equation for the electromagnetic field. It allows the accurate analysis of interference effects arising from the partial superposition of scattered waves. Treated topics of mathematical modeling are: optical characterization of biological tissue with large-scale and small-scale inhomogeneities in the layers, heating blood vessel under laser irradiation incident on the outer surface of the skin and thermo-chemical denaturation of biological structures at the example of human skin.
Table of Contents
The main physical processes occurring during the interaction of optical radiation with matter.- The methods for describing the interaction of laser radiation with biological tissues and objects.- Present situation of studies in biological objects by means of mathematical models describing the interaction of biological tissue with laser light.-The mathematical modeling of electrical characteristics of spherical particles, simulating blood cells by the method of intracavity laser spectroscopy.- Construction of mathematical models of laser interaction with turbid media, for example, human skin.- The electrodynamics model of a plane wave reflection from the layer-modeling biological structure with slowly varying thickness, taking into account the roughness.- The light scattering by dielectric bodies of arbitrary shape with application to problems of biomedical optics.- The Simulation of electrophysical properties of biological tissues by the intracavity laser spectroscopy method.- Analysis of the effect of small-scale inhomogeneities on the electrophysical characteristics of a thin layer by intracavity laser spectroscopy.- Simulation of the thermal processes induced by action of laser radiation on organic media.
by "Nielsen BookData"