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9780890066782
Introduction To Radiometry And Photometry / Edition 1 available in Hardcover
Introduction To Radiometry And Photometry / Edition 1
by William Ross Mccluney
William Ross Mccluney
- ISBN-10:
- 0890066787
- ISBN-13:
- 9780890066782
- Pub. Date:
- 12/01/1994
- Publisher:
- Artech House, Incorporated
- ISBN-10:
- 0890066787
- ISBN-13:
- 9780890066782
- Pub. Date:
- 12/01/1994
- Publisher:
- Artech House, Incorporated
Introduction To Radiometry And Photometry / Edition 1
by William Ross Mccluney
William Ross Mccluney
Hardcover
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Overview
This book describes in detail the relationship between radiometry and photometry. It covers information needed to solve problems in radiation transfer and detection, detectors, measuring instruments, and concepts in colorimetry.
Product Details
| ISBN-13: | 9780890066782 |
|---|---|
| Publisher: | Artech House, Incorporated |
| Publication date: | 12/01/1994 |
| Edition description: | Older Edition |
| Pages: | 424 |
| Product dimensions: | 6.00(w) x 9.00(h) x 1.06(d) |
Table of Contents
| Preface | xiii | |
| Chapter 1 | Fundamental Concepts of Radiometry | 1 |
| 1.1 | Electromagnetic Radiation | 1 |
| 1.2 | Terminology Conventions | 3 |
| 1.3 | Wavelength Notations and Solid Angle | 4 |
| 1.4 | Fundamental Definitions | 7 |
| 1.5 | Lambertian Radiators and Lambert's Cosine Law | 13 |
| 1.6 | Radiance, Irradiance, Intensity, and Flux Relationships | 15 |
| 1.7 | Connection with Electromagnetic Theory | 20 |
| 1.8 | Polarization | 22 |
| 1.9 | Photon Flux | 25 |
| Example Problem 1.1 | 28 | |
| Example Problem 1.2 | 30 | |
| References | 32 | |
| Chapter 2 | Fundamental Concepts of Photometry | 33 |
| 2.1 | Light | 33 |
| 2.2 | Photometric Definitions | 37 |
| 2.2.1 | Radiation Luminous Efficacy, K[superscript r], and the V-lambda Function | 41 |
| 2.2.2 | Lighting System Luminous Efficacy, K[superscript s] | 43 |
| 2.3 | Luminance and Brightness | 45 |
| 2.4 | Luminance and Vision | 47 |
| 2.5 | Disability Glare | 50 |
| 2.6 | Discomfort Glare | 52 |
| 2.7 | Illumination | 54 |
| 2.7.1 | Illuminance Selection | 55 |
| Example Problem 2.1 | 57 | |
| Example Problem 2.2 | 59 | |
| Example Problem 2.3 | 61 | |
| References | 61 | |
| Chapter 3 | Blackbodies and Other Sources | 63 |
| 3.1 | Blackbody Radiation | 63 |
| 3.2 | Planck's Law | 64 |
| 3.3 | Wien Displacement Law | 68 |
| 3.4 | Luminous Efficacy of Blackbody Radiation | 69 |
| 3.5 | Color and Distribution Temperatures | 71 |
| 3.6 | Emission into an Imperfect Vacuum | 72 |
| 3.7 | Radiation Exchange | 73 |
| 3.8 | Experimental Approximation of a Blackbody | 73 |
| 3.9 | Other Real Sources | 74 |
| Example Problem 3.1 | 82 | |
| Example Problem 3.2 | 82 | |
| Example Problem 3.3 | 83 | |
| Example Problem 3.4 | 83 | |
| Example Problem 3.5 | 84 | |
| References | 84 | |
| Chapter 4 | Source/Receiver Flux Transfer Calculations | 87 |
| 4.1 | Introduction | 87 |
| 4.2 | Geometry and Definitions | 87 |
| 4.2.1 | Case 1 | 90 |
| 4.2.2 | Case 2 | 91 |
| 4.2.3 | Case 3 | 92 |
| 4.2.4 | Case 4 | 93 |
| 4.2.5 | Case 5 | 95 |
| 4.2.6 | Case 6 | 96 |
| 4.2.7 | Case 7 | 98 |
| 4.2.8 | Monte Carlo Method | 99 |
| 4.3 | Configuration Factor | 100 |
| 4.4 | Net Exchange of Radiation | 102 |
| 4.5 | Summary | 103 |
| Example Problem 4.1 | 104 | |
| References | 105 | |
| Chapter 5 | The Invariance of Radiance and the Limits of Optical Concentration | 107 |
| 5.1 | Introduction | 107 |
| 5.2 | Radiance is a Field Quantity | 107 |
| 5.3 | Pencils of Rays | 108 |
| 5.4 | Elementary Beam of Radiation | 109 |
| 5.5 | Radiance Invariance | 111 |
| 5.6 | Radiance Invariance at an Interface | 112 |
| 5.7 | Radiance Through a Lens | 114 |
| 5.8 | Radiance in Absorbing and Scattering Media | 115 |
| 5.9 | Concentrating Radiance Meter | 116 |
| 5.10 | The Limits of Optical Concentration | 120 |
| Example Problem 5.1 | 123 | |
| Example Problem 5.2 | 124 | |
| References | 125 | |
| Chapter 6 | Optical Properties of Materials | 127 |
| 6.1 | Introduction | 127 |
| 6.2 | Terminology | 128 |
| 6.3 | Surface and Interface Optical Properties | 130 |
| 6.3.1 | Conductor Optical Properties | 130 |
| 6.3.2 | Nonconductor Optical Properties | 131 |
| 6.3.3 | Surface Emission Properties | 132 |
| 6.3.4 | Angular Dependence of Dielectric Optical Properties | 136 |
| 6.3.5 | Rough Surfaces | 141 |
| 6.4 | Bulk Medium Optical Properties | 142 |
| 6.5 | Properties of Plane Parallel Plates | 148 |
| 6.5.1 | Nonscattering Media | 148 |
| 6.5.2 | Scattering Media | 154 |
| 6.6 | Angular Dependence | 156 |
| 6.7 | Broadband Angle Properties | 160 |
| 6.7.1 | Transmittance and Reflectance Equations | 160 |
| 6.7.2 | Specular and Diffuse Optical Properties | 162 |
| 6.8 | Spectral Dependence | 164 |
| 6.9 | Broadband Spectral Properties | 165 |
| 6.10 | Spectral Selectivity | 167 |
| Example Problem 6.1 | 174 | |
| Example Problem 6.2 | 175 | |
| References | 175 | |
| Chapter 7 | The Detection of Radiation | 179 |
| 7.1 | Introduction | 179 |
| 7.2 | Basic Concepts | 180 |
| 7.3 | Classification of Detectors | 187 |
| 7.3.1 | Thermal Detectors | 187 |
| 7.3.2 | Photemissive Detectors | 191 |
| 7.3.3 | Semiconductor Devices | 197 |
| 7.3.4 | Multi-element Detectors, Charge Transfer Devices, and Imagers | 205 |
| 7.4 | Detector Noise | 209 |
| 7.5 | Signal Modulation and Radiation Chopping | 211 |
| 7.6 | Characterization of Detector Performance | 215 |
| 7.6.1 | Responsivity, R | 216 |
| 7.6.2 | Quantum Efficiency, [eta] | 216 |
| 7.6.3 | Noise Equivalent Power, NEP | 217 |
| 7.6.4 | Detectivity, D | 218 |
| 7.6.5 | Photon Noise-Limited Performance | 219 |
| 7.7 | Flux Conditioning Prior to the Detector | 220 |
| 7.7.1 | Cosine Response Correction | 221 |
| 7.7.2 | Photopic Correction | 224 |
| 7.7.3 | Spectral Filtering | 224 |
| 7.8 | Signal Conditioning After the Detector | 227 |
| 7.9 | Detector Calibration | 227 |
| 7.10 | Example Detectors and Their Characteristics | 229 |
| Example Problem 7.1 | 234 | |
| References | 237 | |
| Appendix 7A | 240 | |
| Chapter 8 | Optical Systems | 243 |
| 8.1 | Introduction | 243 |
| 8.2 | Optical Axis | 244 |
| 8.3 | Idealized (Thin) Lens Theory | 245 |
| 8.4 | Radiance and Irradiance of Images | 250 |
| 8.5 | Vignetting | 253 |
| 8.6 | Aberrations | 254 |
| 8.6.1 | Spherical Aberration | 254 |
| 8.6.2 | Chromatic Aberration | 257 |
| 8.6.3 | Distortion | 258 |
| 8.6.4 | Coma | 258 |
| 8.6.5 | Astigmatism | 259 |
| 8.6.6 | Field Curvature | 261 |
| 8.6.7 | Correcting Aberrations | 261 |
| 8.6.8 | The Diffraction Limit | 261 |
| 8.7 | Image Quality | 263 |
| 8.8 | Flux Distribution | 265 |
| 8.9 | Nonimaging Optical Systems | 266 |
| 8.10 | Throughput | 269 |
| 8.11 | Integrating Spheres | 271 |
| 8.11.1 | Cosine Correction | 274 |
| 8.11.2 | Transmissometers and Reflectometers | 274 |
| 8.12 | Monochromators | 280 |
| 8.12.1 | Spectral Filters | 280 |
| 8.12.2 | Scanning Monochromators | 287 |
| 8.13 | Windows | 293 |
| 8.14 | Sources | 294 |
| 8.15 | Goniometers | 295 |
| 8.16 | Transmissometers/Reflectometers | 296 |
| 8.17 | Scattering Meters, Nephelometers, Turbidimeters, and Haze Meters | 296 |
| Example Problem 8.1 | 297 | |
| References | 300 | |
| Chapter 9 | Radiometers and Photometers | 303 |
| 9.1 | Introduction | 303 |
| 9.2 | General Design Factors | 305 |
| 9.3 | Broadband Irradiance and Radiance Meters | 306 |
| 9.4 | Restricted Spectral Band Irradiance Meters for the Ultraviolet Through the Infrared | 310 |
| 9.5 | Illuminance and Luminance Meters | 311 |
| 9.6 | Spectroradiometers | 312 |
| 9.7 | Calibration of Radiometers and Photometers | 314 |
| 9.7.1 | Transfer Standards | 316 |
| 9.7.2 | Broadband Irradiance Standard Sources | 318 |
| 9.7.3 | Standard Sources for Spectral Irradiance and Spectral Radiance | 319 |
| 9.7.4 | Absolute Radiometry | 322 |
| 9.7.5 | Standard Illuminance and Luminance Sources | 326 |
| 9.7.6 | Radiometer/Photometer Calibration Using Standard Sources | 327 |
| 9.7.7 | Spectroradiometer Calibration | 328 |
| 9.7.8 | National Standards Laboratories | 329 |
| Example Problem 9.1 | 329 | |
| Example Problem 9.2 | 330 | |
| References | 330 | |
| Chapter 10 | Metric Primer and Additional Radiometric and Photometric Quantities and Units | 333 |
| 10.1 | Introduction | 333 |
| 10.2 | The SI System of Units | 334 |
| 10.2.1 | Basic Metric Principles | 334 |
| 10.2.2 | Metric Units for Radiometry and Photometry | 336 |
| 10.3 | The I-P System of Units | 336 |
| 10.4 | Photon Flux Units | 336 |
| 10.5 | Other Quantities and Units | 338 |
| References | 340 | |
| Chapter 11 | Basic Concepts of Color Science | 343 |
| 11.1 | Introduction | 343 |
| 11.2 | Basic Concepts and Definitions | 344 |
| 11.3 | Systems of Color Specification | 349 |
| 11.3.1 | Munsell Color System | 349 |
| 11.3.2 | CIE 1976 (L*a*b*) Color Space | 352 |
| 11.3.3 | Tristimulus Colorimetry | 352 |
| 11.4 | CIE 1931 Color System | 354 |
| 11.5 | CIE 1964 Supplementary Observer Color System | 359 |
| 11.6 | CIE 1976 Uniform Color Space | 359 |
| 11.7 | Color Temperature | 364 |
| 11.8 | Standard Illuminants and Reflection Colorimetry | 366 |
| 11.8.1 | Blackbody Illuminants | 367 |
| 11.8.2 | Daylight Illuminants | 369 |
| 11.8.3 | Reflection Colorimetry | 371 |
| 11.9 | Color Rendering Index | 372 |
| References | 375 | |
| Appendix | Correspondence Between Finite Elements and the Calculus | 377 |
| A.1 | Introduction | 377 |
| A.2 | Definition of the Derivative | 378 |
| A.3 | Definition of the Integral | 380 |
| A.4 | Integrals as Sums | 382 |
| A.5 | Sums Over Solid Angles | 383 |
| References | 387 | |
| About the Author | 389 | |
| Index | 391 |
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