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100   $a20080813d2010      uy         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aOptical sensors $easics and applications /$fJorg Haus
210   $aWeinheim $cWiley-VCH Verlag GmbH & Co.$d2010
215   $a1 online resource (191 p.)
300   $aDescription based upon print version of record.
311 08$a9783527408603 
311 08$a3527408606 
320   $aIncludes bibliographic references and index.
327   $aOptical Sensors; Contents; Preface; Introduction; References; Part One: The Optical Sensor Construction Kit; 2: Light Sources; 2.1 Important Properties of Light Sources; 2.2 Thermal Light Sources; 2.3 Line Sources; 2.4 Light Emitting Diodes (LEDs); 2.5 Lasers; 3: Photodetectors; 3.1 Photomultipliers; 3.2 Photodiodes; 3.3 Other Detector Types; 3.4 Imaging Detectors; 3.5 Detector Noise; 4: Optical Elements; 4.1 Optical Materials; 4.2 Mirrors, Prisms and Lenses; 4.3 Dispersive Elements: Prisms and Gratings; 4.4 Optical Filters; 4.5 Polarizers; 4.6 Optical Fibers; 4.7 Modulators; References
327   $aPart Two: Optical Sensors and Their Applications5: Eyes: The Examples of Nature; 5.1 The Compound Eyes of Insects; 5.2 Nature's Example: The Human Eye; 6: Optical Sensor Concepts; 6.1 Switches; 6.1.1 Light Barriers; 6.1.2 Rain Sensor; 6.2 Spatial Dimensions; 6.2.1 Distance; 6.2.2 Displacement; 6.2.3 Velocity; 6.2.4 Angular Velocity; 6.3 Strain; 6.4 Temperature; 6.5 Species Determination and Concentration; 6.5.1 Spectrometry; 6.5.2 Polarimetry; 6.5.3 Ellipsometry; 6.5.4 Refractometry; 6.5.5 Particle Density and Particle Number; 6.5.6 Fluorescence Detection; 6.6 Surface Topography
327   $a6.6.1 Chromatic Confocal Sensors6.6.2 Conoscopic Holography; 6.6.3 Multiwavelength Interferometry (MWLI); 6.6.4 White-Light Interferometry; 6.6.5 Near-Field Optical Microscopy; 6.6.6 Contouring: Structured-Light Techniques; 6.6.7 Concepts: Cross-Correlation Analysis and 2D Fourier-Transform Techniques; 6.7 Deformation and Vibration Analysis; 6.7.1 Laser Vibrometers; 6.7.2 Speckle-Pattern Interferometry; 6.7.3 Holographic Interferometry; 6.8 Wavefront Sensing and Adaptive Optics; 6.9 Determination of the Sun Angle; 6.10 Determination of Age; References
327   $aPart Three: Optics and Sensors at Work: A Laser-Spectroscopic Experiment7: The Measurement Problem; 8: The Physical Principles behind the Experiment; 9: Spectroscopic Setups of the Experiment; 9.1 The Single-Step Approach; 9.2 The Two-Step Approach; References; Summary; Glossary; Index
330   $aProviding an overview of the necessary components and the range of applications from light-barriers to high-resolution surface-scanning interferometers, this is a valuable introduction to the technology of optical sensors as well as a reference for experienced practitioners.The first part of the book introduces readers to the basics of sensor principles by describing the most important components that can be found in all optical sensors. Based on this opto-electronic toolbox, the second part then goes on to give numerous examples of optical sensors with respect to their applications.
606   $aOptical detectors
606   $aOptoelectronic devices
615  0$aOptical detectors.
615  0$aOptoelectronic devices.
676   $a681.25
686   $a530$2sdnb
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700   $aHaus$b Jorg$01841202
801  0$bMiAaPQ
801  1$bMiAaPQ
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906   $aBOOK
912   $a9911020197003321
996   $aOptical sensors$94420843
997   $aUNINA