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This book focuses on polarization microscopy, a powerful optical
tool used to study anisotropic properties in biomolecules, and its
enormous potential to improve diagnostic tools for various
biomedical research. The interaction of polarized light with normal
and abnormal regions of tissue reveals structural information
associated with its pathological condition. Diagnosis using
conventional microscopy can be time-consuming, as pathologists
require an hour to freeze and stain tissue slices from suspected
patients. In comparison, polarization microscopy more quickly
distinguishes abnormal tissue and provides better microstructural
information of samples, even in the absence of staining. This book
provides a basic understanding of the properties of polarized
light, a description of the polarization microscope, and a
mathematical formalism of Mueller matrix polarimetry. The authors
discuss various advanced linear and nonlinear optical techniques
such as optical coherence tomography (OCT), reflectance and
transmission spectroscopy, fluorescence, multiphoton excitation,
second harmonic generation, Raman microscopy, and more. They
explore the exciting potential of integrating polarimetry with
these techniques for possible applications in different areas of
biomedical research, as well as the associated challenges.
Including the most recent developments on the topic, this book
serves as a modern guide to polarization microscopy and
advancements in its use in biomedical research.
This book gives a comprehensive overview of recent advancements in
both theory and practical implementation of plasmonic probes.
Encompassing multiple disciplines, the field of plasmonics provides
a versatile and flexible platform for nanoscale sensing and
imaging. Despite being a relatively young field, plasmonic probes
have come a long way, with applications in chemical, biological,
civil, and architectural fields as well as enabling many analytical
schemes such as immunoassay, biomarkers, environmental indexing,
and water quality sensing, to name but a few. The objective of the
book is to present in-depth analysis of the theory and applications
of novel probes based on plasmonics, with a broad selection of
specially-invited chapters on the development, fabrication,
functionalization, and implementation of plasmonic probes as well
as their integration with current technologies and future outlook.
This book is designed to cater to the needs of novice, seasoned
researchers and practitioners in academia and industry, as well as
medical and environmental fields.
This book gives a comprehensive overview of recent advancements in
both theory and practical implementation of plasmonic probes.
Encompassing multiple disciplines, the field of plasmonics provides
a versatile and flexible platform for nanoscale sensing and
imaging. Despite being a relatively young field, plasmonic probes
have come a long way, with applications in chemical, biological,
civil, and architectural fields as well as enabling many analytical
schemes such as immunoassay, biomarkers, environmental indexing,
and water quality sensing, to name but a few. The objective of the
book is to present in-depth analysis of the theory and applications
of novel probes based on plasmonics, with a broad selection of
specially-invited chapters on the development, fabrication,
functionalization, and implementation of plasmonic probes as well
as their integration with current technologies and future outlook.
This book is designed to cater to the needs of novice, seasoned
researchers and practitioners in academia and industry, as well as
medical and environmental fields.
The book reviews the recent developments in brain imaging and their
technological advancements to understand molecular mechanisms
associated with neurological disorders and basic behaviors in
humans and rodents at the structural, molecular, and functional
levels. It discusses the usefulness of advanced optical microscopy
techniques, including optical coherence tomography (OCT),
miniscope, multiphoton fluorescence (2PF & 3PF), adaptive
optics, harmonic generation, and Raman microscopy for understanding
pathomechanism of brain disorders and pathological and
physiological changes associated with neurodegenerative diseases.
Also, the book presents conventional imaging modalities, including
Magnetic Resonance Imaging (MRI), for delineating underlying
mechanisms and precise early diagnosis of neurological disorders.
This book is a useful resource for neuroscientists and researchers
working in biomedical engineering and optics.
The book reviews the recent developments in brain imaging and their
technological advancements to understand molecular mechanisms
associated with neurological disorders and basic behaviors in
humans and rodents at the structural, molecular, and functional
levels. It discusses the usefulness of advanced optical microscopy
techniques, including optical coherence tomography (OCT),
miniscope, multiphoton fluorescence (2PF & 3PF), adaptive
optics, harmonic generation, and Raman microscopy for understanding
pathomechanism of brain disorders and pathological and
physiological changes associated with neurodegenerative diseases.
Also, the book presents conventional imaging modalities, including
Magnetic Resonance Imaging (MRI), for delineating underlying
mechanisms and precise early diagnosis of neurological disorders.
This book is a useful resource for neuroscientists and researchers
working in biomedical engineering and optics.
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Braai
Reuben Riffel
Paperback
R495
R359
Discovery Miles 3 590
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