Principles Of Biophotonics Volume 2 Light Emission Detection And Statistics
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Principles of Biophotonics
Principles of Biophotonics, volume two describes detection and statistical representation of optical fields. Beginning by placing the visible spectrum in the context of the electromagnetic frequency range, this presentation stresses how thin of a sliver is normally called the optical spectrum. In addition to describing properties of light with technical accuracy, the most common radiometric quantities are introduced, and conversion to photon-based quantities is explicitly presented. For completeness, an analogy to the photometric quantities is also made, and the three fundamental mechanisms for generating light, blackbody radiation, fluorescence and laser emission, are covered. Each chapter contains a set of practice problems and additional references, and this book aims to build the foundation for further study in subsequent volumes.
Principles of Biophotonics, Volume 2: Light Emission, Detection, and Statistics
Author: Gabriel Popescu
language: en
Publisher: Institute of Physics Publishing
Release Date: 2019-11-18
Principles of Biophotonics, volume two describes detection and statistical representation of optical fields. Beginning by placing the visible spectrum in the context of the electromagnetic frequency range, this presentation stresses how thin of a sliver is normally called the optical spectrum. In addition to describing properties of light with technical accuracy, the most common radiometric quantities are introduced, and conversion to photon-based quantities is explicitly presented. For completeness, an analogy to the photometric quantities is also made, and the three fundamental mechanisms for generating light, blackbody radiation, fluorescence and laser emission, are covered. Each chapter contains a set of practice problems and additional references, and this book aims to build the foundation for further study in subsequent volumes.
Molecularly Imprinted Polymers
This book provides an overview of the latest technology and advances in the field of molecularly imprinted polymers (MIPs) and their diverse applications in healthcare diagnostics, food safety and quality, as well as environmental monitoring. Divided into 3 parts, the book offers an introduction to the basics of molecular imprinting and affinity materials, followed by an outline of the main sensor applications and the contribution of smart nanomaterials to molecular imprinting. The last part of the book compares MIP-based diagnostics technologies with antibody- and aptamer-based diagnostics, and discusses existing and further commercial opportunities for MIPs. Through this book, readers will get a wide range of information from basics to advanced applications in the molecular imprinting area and discover the impact of integrated approaches such as computational studies and nanotechnology on the development of imprinting techniques for biotechnological applications covering healthcare, environmental and food safety research. With its rich content, the book is a unique contribution to the field and it holds great potential to be a reference work not only for researchers working in the field but also for the researchers who plan to design collaborative research projects to contribute to their particular field (e.g., medical scientists, medical doctors, agricultural or food engineers).