Lasers and Current Optical Techniques in Biology
The introduction of innovative light sources, fibre laser sources and light emitting diodes, is opening unexpected perspectives into optical techniques and is promising new exciting applications in the field of biomedicine. Lasers and Current Optical Techniques in Biology aims to provide an overview of light sources, together with an extensive and authoritative description of the optical techniques in bio-medicine. This book is designed to give biomedical researchers a strong feel for the capability of physical approaches, promote new interdisciplinary interests and persuade more practitioners to take advantage of optical techniques. Current developments in a variety of optical techniques, including Near-Infra Red Spectroscopy, and traditional and advanced fluorescence techniques are covered, ranging from those that are becoming common practice to those that need much more experimentation before they can be accepted as real breakthroughs. Further topics include optical coherence tomography and its variations, polarised light imaging and, principle laser and lamp sources- a usually fragmentary topic, often dispersed among specialist publications. The wide range of topics covered make Lasers and Current Optical Techniques in Biology of interest to a diverse range of scientific communities.
T. A. King, W. Luthy, H. Weber, P. Unger, H. Zellmer, A. Tunnermann, ... European Society Photobiology, Lasers and Current Optical Techniques in Biology, The Royal Society of Chemistry, 2004.
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Table of contents
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Front coverBy
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Front matterBy
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Preface for the ESP series in photochemical and photobiological sciencesBy
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Volume prefaceBy
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To Alba and NadiaBy
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The editorsBy
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ContentsBy
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ContributorsBy
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AbbreviationsBy
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Part I: Lasers and Lampsp1-2By
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Gas state lasersp3-32By
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Liquid state lasersp33-56By
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Solid state lasersp57-76By
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Semiconductor lasersp77-96By
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Diode pumped solid state lasersp97-104By
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Incoherent light Sourcesp105-116By
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Solid state lampsp117-132By
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Fibre lasersp133-156By
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Methods for the generation of light pulses: From nanoseconds to attosecondsp157-186By
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Part II: Spectroscopic and imaging techniques (non-microscopic)p187-188By
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Autofluorescence spectroscopy of cells and tissue as a tool for biomedical diagnosisp189-210By
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Reflectance and transmittance spectroscopyp211-258By
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Fluorescence spectroscopy and imaging (non-microscopic)p259-328By
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Part III: Microscopy techniquesp329-330By
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Optical microscopyp331-356By
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Wide-field autofluorescence microscopy for imaging of living cellsp357-374By
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Scanning probe microscopyp375-428By
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Confocal and multiphoton microscopyp429-478By
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Part IV: Advancing imaging techniques and novel ultrasensitive fluorescence detection techniquesp479-480By
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Optical coherence tomographyp481-572By
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Laser optoacoustic imagingp573-590By
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Polarized light imaging of tissuesp591-608By
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Ultrasensitive fluorescence detection at surfaces: Instrument development, surface chemistry, and applications in life science and medicinep609-640By
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Subject indexp641-658By
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Back coverpX003-X004By
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