Produktbild: Saeedkia, D: Handbook of Terahertz Technology for Imaging, S

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

16.01.2013

Herausgeber

D. Saeedkia

Verlag

Elsevier Science & Technology

Seitenzahl

688

Maße (L/B/H)

24.1/16.4/5 cm

Gewicht

1170 g

Sprache

Englisch

ISBN

978-0-85709-235-9

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

16.01.2013

Herausgeber

D. Saeedkia

Verlag

Elsevier Science & Technology

Seitenzahl

688

Maße (L/B/H)

24.1/16.4/5 cm

Gewicht

1170 g

Sprache

Englisch

ISBN

978-0-85709-235-9

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DE
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Elsevier Science & Technology
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  • Produktbild: Saeedkia, D: Handbook of Terahertz Technology for Imaging, S
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    Woodhead Publishing Series in Electronic and Optical Materials

    Preface

    Part I: Fundamentals of terahertz technology for imaging, sensing and communications

    Chapter 1: Optoelectronic techniques for the generation and detection of terahertz waves

    Abstract:

    1.1 Introduction

    1.2 Terahertz detector technologies

    1.3 Terahertz signal generation in terahertz photoconductive antennas (THz-PCAs)

    1.4 Terahertz signal detection with terahertz photoconductive antennas (THz-PCAs)

    1.5 Parametric interaction in nonlinear crystals

    1.6 Difference frequency mixing in nonlinear crystals

    1.7 Conclusion

    Chapter 2: Transmission and propagation of terahertz waves in plastic waveguides

    Abstract:

    2.1 Introduction

    2.2 Main challenges of the plastic-based terahertz fiber optics

    2.3 Devices based on subwavelength fibers

    2.4 Hollow-core fibers

    2.5 Composite terahertz materials

    2.6 Experimental characterization of terahertz waveguides

    2.7 Conclusions

    2.8 Acknowledgments

    Chapter 3: Fundamental aspects of surface plasmon polaritons at terahertz frequencies

    Abstract:

    3.1 Introduction

    3.2 The Drude model

    3.3 Surface plasmon polaritons on planar surfaces

    3.4 Multilayered structures

    3.5 New trends in terahertz plasmonics

    3.6 Acknowledgments

    Chapter 4: Fundamental aspects of terahertz near-field imaging and sensing

    Abstract:

    4.1 Introduction

    4.2 Terahertz near-field measurements

    4.3 Near-fields of various subwavelength holes

    4.4 Kirchhoff formalism for near-field estimate

    4.5 Conclusions

    Chapter 5: Field effect transistors for terahertz applications

    Abstract:

    5.1 Introduction

    5.2 Plasma waves in low-dimensional structures

    5.3 Instability of the steady state with a dc current in field effect transistors (FETs)

    5.4 Detection of terahertz radiation by an FET

    5.5 Studies of terahertz emission from FETs

    5.6 Experimental studies of terahertz detection by FETs

    5.7 Conclusions

    5.8 Acknowledgements

    Chapter 6: Terahertz wireless communications

    Abstract:

    6.1 Introduction

    6.2 Motivation for terahertz wireless communications

    6.3 Atmospheric propagation for communications

    6.4 Modeling of terahertz communication channels

    6.5 Hardware for terahertz communications: sources and detectors

    6.6 Modulators for terahertz waves

    6.7 Modulation formats for terahertz signals

    6.8 Examples of terahertz communication systems

    6.9 Experimental characterization of rain, fog and scintillations on terahertz communication links

    6.10 Future trends

    6.11 Sources of further information

    6.12 Acknowledgments

    Part II: Recent progress and novel techniques in terahertz technology

    Chapter 7: Terahertz bio-sensing techniques

    Abstract:

    7.1 Introduction

    7.2 Sensing of water dynamics by terahertz waves

    7.3 Sensing of proteins

    7.4 Binding-state dependent sensing

    7.5 Characteristic resonances of biomolecules in the terahertz range

    7.6 Water-mediated terahertz molecular imaging

    7.7 Conclusion

    7.8 Acknowledgements

    Chapter 8: Terahertz array imagers: towards the implementation of terahertz cameras with plasma-wave-based silicon MOSFET detectors

    Abstract:

    8.1 Introduction

    8.2 Resistive mixing - a quasi-static analysis

    8.3 Plasmonic mixing - a hydrodynamic analysis

    8.4 Technology, design and implementation of complementary metal oxide semiconductor (CMOS) field effect transistors as terahertz detectors

    8.5 Characterization and optimization of field effect transistor (FET) detectors

    8.5.6 Results for MOSFET THz detectors

    8.6 Developme