Optical sensors [[electronic resource] ] : asics and applications / / Jörg Haus |
Autore | Haus Jörg |
Pubbl/distr/stampa | Weinheim, : Wiley-VCH Verlag GmbH & Co., 2010 |
Descrizione fisica | 1 online resource (191 p.) |
Disciplina | 681.25 |
Soggetto topico |
Optical detectors
Optoelectronic devices |
Soggetto genere / forma | Electronic books. |
ISBN |
1-282-68853-7
9786612688539 3-527-62943-2 3-527-62944-0 |
Classificazione |
530
ZQ 3120 ZQ 3910 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Optical 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
Part 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 6.6.1 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 Part 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 |
Record Nr. | UNINA-9910139471303321 |
Haus Jörg | ||
Weinheim, : Wiley-VCH Verlag GmbH & Co., 2010 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Optical sensors [[electronic resource] ] : asics and applications / / Jörg Haus |
Autore | Haus Jörg |
Pubbl/distr/stampa | Weinheim, : Wiley-VCH Verlag GmbH & Co., 2010 |
Descrizione fisica | 1 online resource (191 p.) |
Disciplina | 681.25 |
Soggetto topico |
Optical detectors
Optoelectronic devices |
ISBN |
1-282-68853-7
9786612688539 3-527-62943-2 3-527-62944-0 |
Classificazione |
530
ZQ 3120 ZQ 3910 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Optical 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
Part 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 6.6.1 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 Part 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 |
Record Nr. | UNINA-9910831088303321 |
Haus Jörg | ||
Weinheim, : Wiley-VCH Verlag GmbH & Co., 2010 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Optical sensors [[electronic resource] ] : asics and applications / / Jörg Haus |
Autore | Haus Jörg |
Pubbl/distr/stampa | Weinheim, : Wiley-VCH Verlag GmbH & Co., 2010 |
Descrizione fisica | 1 online resource (191 p.) |
Disciplina | 681.25 |
Soggetto topico |
Optical detectors
Optoelectronic devices |
ISBN |
1-282-68853-7
9786612688539 3-527-62943-2 3-527-62944-0 |
Classificazione |
530
ZQ 3120 ZQ 3910 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Optical 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
Part 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 6.6.1 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 Part 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 |
Record Nr. | UNINA-9910841492603321 |
Haus Jörg | ||
Weinheim, : Wiley-VCH Verlag GmbH & Co., 2010 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|