Measurements using Optic and RF Waves
ISTE Ltd and John Wiley & Sons Inc (Verlag)
978-1-84821-187-2 (ISBN)
The scientific and technical basis underpinning modern measurement techniques used for electromagnetic quantities and phenonema is necessarily wide-ranging, as the electromagnetic environment spans all possible frequencies and wavelengths. Measurements must be applicable in fields as varied as nanotechnologies, telecommunications, meteorology, geo-location, radio-astronomy, health, biology, and many others. In order to adequately cover the many different facets of the topic, this book provides examples from the entire range of the electromagnetic spectrum — covering frequencies from several hertz to terahertz, and considering wavelength distances ranging from nanometers to light-years in optics. It then provides coverage of the various measurement techniques using electromagnetic waves for various applications, devoting chapters to each different field of application.
This comprehensive book gives detailed information on:
the various techniques and methods available to measure the key characteristics of electromagnetic waves, in terms of the local field and phase for a broad field of frequencies;
determination of physical quantities such as distance, time, etc., using electromagnetic properties;
new approaches to measurements in the field of electromagnetic distribution in complex structures media, such as biological tissues and in the nanosciences.
Frédérique de Fornel, director of research at the Centre National de la Recherche Scientifique (CNRS), is the head of the Near Field Optics Group at Bourgogne University, and past president of D commission of URSI (International Union of Radio Science). Pierre-Noël Favennec, Doctor of Science, author of numerous scientific books and articles is the director of the Collection Télécom and is past-president of URSI-France.
Preface xiii
Chapter 1. Electromagnetic Environment 1
Pierre-Noël FAVENNEC
1.1. Electromagnetic radiation sources 1
1.2. Electromagnetic fields 18
1.3. Bibliography 21
Chapter 2. From Measurement to Control of Electromagnetic Waves using a Near-field Scanning Optical Microscope 23
Loïc LALOUAT, Houssein NASRALLAH, Benoit CLUZEL, Laurent SALOMON, Colette DUMAS and Frédérique DE FORNEL
2.1. Introduction 23
2.2. Principle of the measurement using a local probe 24
2.3. Measurement of the electromagnetic field distribution inside nanophotonic components 30
2.4. Measuring the amplitude and phase in optical near-field 39
2.5. Active optical near-field microscopy 41
2.6. Conclusion 45
2.7. Acknowledgements 45
2.8. Bibliography 45
Chapter 3. Meteorological Visibility Measurement: Meteorological Optical Range 51
Hervé SIZUN and Maher AL NABOULSI
3.1. Introduction 51
3.2. Definitions 52
3.3. Atmospheric composition 53
3.4. Atmospheric effects on light propagation 54
3.5. Units and scales 57
3.6. Measurement methods 58
3.7. Visibility perturbation factors 68
3.8. Applications 71
3.9. Appendix – optical contrast and Koschmieder’s law 75
3.10. Glossary 77
3.11. Bibliography 78
Chapter 4. Low Coherence Interferometry 81
Xavier CHAPELEAU, Dominique LEDUC, Cyril LUPI, Virginie GAILLARD and Christian BOISROBERT
4.1. Introduction 81
4.2. Phase measurement 82
4.3. Metrology considerations 86
4.4. Applications 91
4.5. Conclusion 106
4.6. Bibliography 107
Chapter 5. Passive Remote Sensing at Submillimeter Wavelengths and THz 113
Gérard BEAUDIN
5.1. Introduction 113
5.2. Submillimeter-THz low noise heterodyne receivers 115
5.3. Submillimeter – THz applications for astronomy and astrophysics 120
5.4. Submillimeter – THz remote-sensing applications to aeronomy and planetology 124
5.5. Conclusion 126
5.6. Acknowledgements 127
5.7. Bibliography 127
Chapter 6. Exposimetry – Measurements of the Ambient RF Electromagnetic Fields 131
Pierre-Noël FAVENNEC
6.1. Introduction 131
6.2. Definitions 132
6.3. Interactions of the electromagnetic fields with biological tissues and medical risks 136
6.4. Exposure limit values 141
6.5. Electromagnetic environment to be measured 146
6.6. Measurement equipment 150
6.7. Measurements 159
6.8. Control stations and uninterrupted electromagnetic measurements: towards a 3D electromagnetic land register 175
6.9. Appendix 1 – some field measurements 176
6.10. Appendix 2 – principal characteristics of mobile communication systems 177
6.11. Bibliography 177
Chapter 7. Ambient RF Electromagnetic Measurements in a Rural Environment 181
Hervé SIZUN and Philippe MALIET
7.1. Introduction 181
7.2. Measurement set-up 182
7.3. Operating mode 184
7.4. Different studies 185
7.5. Measurements results 186
7.6. Electrical field strength 188
7.7. Conclusion 189
7.8. Acknowledgements 189
7.9. Bibliography 189
Chapter 8. Radio Mobile Measurement Techniques 191
Hervé SIZUN
8.1. Introduction 191
8.2. Field strength measurements 192
8.3. Measurement of the impulse response 195
8.4. Measurement of directions of arrival 198
8.5. WiFi measurements in a home environment (field strength, data rate) 216
8.6. Conclusion 222
8.7. Glossary 224
8.8. Acknowledgments 225
8.9. Bibliography 225
Chapter 9. Dosimetry of Interactions Between the Radioelectric Waves and Human Tissues – Hybrid Approach of the Metrology 229
Joe WIART and Man Faï WONG
9.1. Introduction 229
9.2. Evaluation of the power absorber for the tissues 230
9.3. Experimental evaluation of the specific absorption rate (SAR) 232
9.4. SAR evaluation in biological tissues 235
9.5. Variability, representativeness and uncertainty 242
9.6. Conclusions 245
9.7. Bibliography 246
Chapter 10. Measurement for the Evaluation of Electromagnetic Compatibility 249
Philippe BESNIER, Christophe LEMOINE and Mohammed SERHIR
10.1. Introduction 249
10.2. General aspects of EMC measurement 250
10.3. Emissivity and radiated immunity testing 253
10.4. Efficiency and limitations of EMC measurement techniques 261
10.5. Mode-stirred reverberation chambers 262
10.6. Electromagnetic near-field measurement techniques applied to EMC 268
10.7. Conclusions and future prospects 272
10.8. Bibliography 272
Chapter 11. High Precision Pulsar Timing in Centrimetric Radioastronomy 277
Ismaël COGNARD
11.1. Introduction 277
11.2. Ultra-stable clocks to the limits of the Galaxy 277
11.3. Dispersion by the interstellar medium 280
11.4. Instrumentation used to study pulsars 281
11.5. Swept local oscillator dedispersion 282
11.6. Filterbank dedispersion 283
11.7. Real-time coherent dedispersion 284
11.8. The coherent pulsar instrumentation installed at Nançay 285
11.9. Conclusion 288
11.10. Bibliography 289
Chapter 12. Long Baseline Decameter Interferometry between Nançay and LOFAR 291
Philippe ZARKA
12.1. Introduction 291
12.2. Observations 293
12.3. Analysis 297
12.4. Conclusions and perspectives 303
12.5. Acknowledgements 305
12.6. Bibliography 305
List of Authors 307
Index 311
Verlagsort | London |
---|---|
Sprache | englisch |
Maße | 163 x 241 mm |
Gewicht | 621 g |
Einbandart | gebunden |
Themenwelt | Technik ► Elektrotechnik / Energietechnik |
ISBN-10 | 1-84821-187-2 / 1848211872 |
ISBN-13 | 978-1-84821-187-2 / 9781848211872 |
Zustand | Neuware |
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