Handbook of terahertz technology for imaging, sensing and communications / edited by Daryoosh Saeedkia.

Contributor(s): Material type: TextTextSeries: Woodhead Publishing series in electronic and optical materials. 34. Publication details: Oxford, England ; Philadelphia, Pennsylvania : WP, Woodhead Publishing, 2013.Description: xxi, 662 pages : illustrations ; 24 cmContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
ISBN:
  • 9780857092359 (hardback)
  • 0857092359 (hardback)
Subject(s): Genre/Form: DDC classification:
  • 535.8 543/.5 23
LOC classification:
  • QC454.T47 H36 2013
Contents:
Machine generated contents note: pt. I Fundamentals of terahertz technology for imaging, sensing and communications -- 1. Optoelectronic techniques for the generation and detection of terahertz waves / D. Saeedkia -- 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 -- 1.8. References -- 2. Transmission and propagation of terahertz waves in plastic waveguides / M. Skorobogatiy -- 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 -- 2.9. References -- 3. Fundamental aspects of surface plasmon polaritons at terahertz frequencies / A. Berrier -- 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 -- 3.7. References -- 4. Fundamental aspects of terahertz near-field imaging and sensing / P.C.M. Planken -- 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 -- 4.6. References -- 5. Field effect transistors for terahertz applications / M.I. Dyakonov -- 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 -- 5.9. References -- 6. Terahertz wireless communications / K. Su -- 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 -- 6.13. References -- pt. II Recent progress and novel techniques in terahertz technology -- 7. Terahertz bio-sensing techniques / J.-H. Son -- 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 -- 7.9. References -- 8. Terahertz array imagers: towards the implementation of terahertz cameras with plasma-wave-based silicon MOSFET detectors / H.G. Roskos -- 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 -- 8.6. Developments towards a terahertz camera -- 8.7. Overview of other focal-plane technologies for terahertz imaging -- 8.8. Acknowledgements -- 8.9. References -- 9. Resonant field enhancement of terahertz waves in subwavelength plasmonic structures / W. Zhang -- 9.1. Introduction -- 9.2. Fundamentals of surface plasmon polaritons at terahertz frequencies -- 9.3. Extraordinary transmission of terahertz waves through metallic hole arrays -- 9.4. Active control of terahertz surface plasmon polaritons -- 9.5. Conclusion -- 9.6. References -- 10. Fiber-coupled terahertz time-domain spectroscopy (THz-TDS) systems / R. Beigang -- 10.1. Introduction -- 10.2. Fiber guiding -- 10.3. Experimental layout and system characterization -- 10.4. Measurement results of fiber-based terahertz systems -- 10.5.Comparison of THz-TDS with other systems and techniques -- 10.6. Future trends and conclusions -- 10.7. References -- 11. State-of-the-art in terahertz continuous-wave photomixer systems / A. Deninger -- 11.1. Introduction -- 11.2. Continuous-wave emitter and detector technologies -- 11.3. Coherent signal detection -- 11.4. Laser sources -- 11.5. Selected applications of photomixing continuous-wave terahertz systems -- 11.6. Conclusion -- 11.7. Acknowledgements -- 11.8. References -- 12. Novel techniques in terahertz near-field imaging and sensing / H. Kurz -- 12.1. Introduction -- 12.2. State-of-the-art terahertz near-field approaches -- 12.3. Novel micro-machined terahertz near-field probe-tips -- 12.4. Analysis of nanophotonic second-order nonlinear-optic waveguides with terahertz near-field probing -- 12.5. Failure analysis in integrated electronic structures based on terahertz time-domain reflectometry -- 12.6. High-resolution imaging of free-carrier concentrations for photovoltaic material inspection -- 12.7. Conclusion and future trends -- 12.8. References -- 13. Terahertz nano-devices and nano-systems / Y. Kawano -- 13.1. Introduction -- 13.2. Nanoscale terahertz detector -- 13.3. Near-field terahertz imager -- 13.4. Conclusion -- 13.5. Acknowledgments -- 13.6. References -- 14. Terahertz integrated devices and systems / T. Ouchi -- 14.1. Integrated terahertz biosensor chip -- 14.2. Terahertz oscillators integrated with patch antennas -- 14.3. Results and discussion of fabricated resonant tunneling diodes -- 14.4. References -- 15. Terahertz frequency metrology based on frequency comb techniques / T. Yasui -- 15.1. Introduction -- 15.2. Coherent frequency linking with a frequency comb -- 15.3. Terahertz-comb-referenced spectrum analyzer -- 15.4. Optical-comb-referenced terahertz synthesizer -- 15.5. Terahertz-comb-referenced spectrometer -- 15.6. Conclusions and future trends -- 15.7. References -- 16. Semiconductor material development for terahertz applications / M. Missous -- 16.1. Introduction -- 16.2. Generation and detection of broadband pulsed terahertz radiation -- 16.3. Generation of continuous wave terahertz radiation using photomixing -- 16.4. Photoconductive semiconductor materials -- 16.5. Conclusions -- 16.6. Acknowledgements -- 16.7. References -- pt. III Applications of terahertz technology -- 17. Terahertz applications in tomographic imaging and material spectroscopy: a review / K. Kawase -- 17.1. Introduction -- 17.2. Tomographic imaging applications -- 17.3. Quantitative analysis of powdered chemicals -- 17.4. Conclusion -- 17.5. References -- 18. Terahertz applications in the aerospace industry / D.T. Petkie -- 18.1. Introduction -- 18.2. Non-destructive evaluation of aircraft composites using transmissive terahertz time domain spectroscopy -- 18.3. Non-destructive evaluation of aircraft composites using reflective terahertz time domain spectroscopy -- 18.4. Continuous-wave non-destructive terahertz imaging for aerospace applications -- 18.5.Comparison of non-destructive imaging for glass fiber reinforced plastics -- 18.6. Conclusion -- 18.7. References -- 19. Terahertz applications in the wood products industry / T.M. Todoruk -- 19.1. Introduction -- 19.2. Applications of terahertz technology in the wood products industry -- 19.3. Wood structure and morphology -- 19.4. Far infrared properties of wood -- 19.5. Probing wood characteristics at terahertz frequencies -- 19.6. Terahertz sensing in the oriented strand board industry -- 19.7. Future trends -- 19.8. References -- 20. Terahertz applications in the pharmaceutical industry / B.B. Jin -- 20.1. Introduction -- 20.2. Terahertz time-domain spectroscopy (THz-TDS): spectroscopy set-up and analysis -- 20.3. Terahertz time-domain spectroscopy (THz-TDS): identification, quantification and analysis -- 20.4. Terahertz time-domain imaging (THz-TDI): imaging set-up and analysis -- 20.5. Terahertz time-domain imaging (THz-TDI): process monitoring, spectroscopic imaging and chemical mapping -- 20.6. Conclusions and future trends -- 20.7. Acknowledgement -- 20.8. References -- 21. Terahertz applications in art conservation / K. Fukunaga -- 21.1. Introduction -- 21.2. Material analysis using terahertz waves -- 21.3. Observation of the internal structure of artworks using terahertz waves -- 21.4. Prospective development of terahertz technology as a tool for heritage science -- 21.5. References -- 22. Applications of terahertz technology in the semiconductor industry / D. Goyal -- 22.1. Introduction -- 22.2. Characterizations of electro-optical terahertz pulse reflectometry (EOTPR) -- 22.3. Examples of failure analysis using electro-optical terahertz pulse reflectometry (EOTPR) -- 22.4. Conclusions and future trends -- 22.5. References.
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Includes bibliographical references and index.

Machine generated contents note: pt. I Fundamentals of terahertz technology for imaging, sensing and communications -- 1. Optoelectronic techniques for the generation and detection of terahertz waves / D. Saeedkia -- 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 -- 1.8. References -- 2. Transmission and propagation of terahertz waves in plastic waveguides / M. Skorobogatiy -- 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 -- 2.9. References -- 3. Fundamental aspects of surface plasmon polaritons at terahertz frequencies / A. Berrier -- 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 -- 3.7. References -- 4. Fundamental aspects of terahertz near-field imaging and sensing / P.C.M. Planken -- 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 -- 4.6. References -- 5. Field effect transistors for terahertz applications / M.I. Dyakonov -- 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 -- 5.9. References -- 6. Terahertz wireless communications / K. Su -- 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 -- 6.13. References -- pt. II Recent progress and novel techniques in terahertz technology -- 7. Terahertz bio-sensing techniques / J.-H. Son -- 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 -- 7.9. References -- 8. Terahertz array imagers: towards the implementation of terahertz cameras with plasma-wave-based silicon MOSFET detectors / H.G. Roskos -- 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 -- 8.6. Developments towards a terahertz camera -- 8.7. Overview of other focal-plane technologies for terahertz imaging -- 8.8. Acknowledgements -- 8.9. References -- 9. Resonant field enhancement of terahertz waves in subwavelength plasmonic structures / W. Zhang -- 9.1. Introduction -- 9.2. Fundamentals of surface plasmon polaritons at terahertz frequencies -- 9.3. Extraordinary transmission of terahertz waves through metallic hole arrays -- 9.4. Active control of terahertz surface plasmon polaritons -- 9.5. Conclusion -- 9.6. References -- 10. Fiber-coupled terahertz time-domain spectroscopy (THz-TDS) systems / R. Beigang -- 10.1. Introduction -- 10.2. Fiber guiding -- 10.3. Experimental layout and system characterization -- 10.4. Measurement results of fiber-based terahertz systems -- 10.5.Comparison of THz-TDS with other systems and techniques -- 10.6. Future trends and conclusions -- 10.7. References -- 11. State-of-the-art in terahertz continuous-wave photomixer systems / A. Deninger -- 11.1. Introduction -- 11.2. Continuous-wave emitter and detector technologies -- 11.3. Coherent signal detection -- 11.4. Laser sources -- 11.5. Selected applications of photomixing continuous-wave terahertz systems -- 11.6. Conclusion -- 11.7. Acknowledgements -- 11.8. References -- 12. Novel techniques in terahertz near-field imaging and sensing / H. Kurz -- 12.1. Introduction -- 12.2. State-of-the-art terahertz near-field approaches -- 12.3. Novel micro-machined terahertz near-field probe-tips -- 12.4. Analysis of nanophotonic second-order nonlinear-optic waveguides with terahertz near-field probing -- 12.5. Failure analysis in integrated electronic structures based on terahertz time-domain reflectometry -- 12.6. High-resolution imaging of free-carrier concentrations for photovoltaic material inspection -- 12.7. Conclusion and future trends -- 12.8. References -- 13. Terahertz nano-devices and nano-systems / Y. Kawano -- 13.1. Introduction -- 13.2. Nanoscale terahertz detector -- 13.3. Near-field terahertz imager -- 13.4. Conclusion -- 13.5. Acknowledgments -- 13.6. References -- 14. Terahertz integrated devices and systems / T. Ouchi -- 14.1. Integrated terahertz biosensor chip -- 14.2. Terahertz oscillators integrated with patch antennas -- 14.3. Results and discussion of fabricated resonant tunneling diodes -- 14.4. References -- 15. Terahertz frequency metrology based on frequency comb techniques / T. Yasui -- 15.1. Introduction -- 15.2. Coherent frequency linking with a frequency comb -- 15.3. Terahertz-comb-referenced spectrum analyzer -- 15.4. Optical-comb-referenced terahertz synthesizer -- 15.5. Terahertz-comb-referenced spectrometer -- 15.6. Conclusions and future trends -- 15.7. References -- 16. Semiconductor material development for terahertz applications / M. Missous -- 16.1. Introduction -- 16.2. Generation and detection of broadband pulsed terahertz radiation -- 16.3. Generation of continuous wave terahertz radiation using photomixing -- 16.4. Photoconductive semiconductor materials -- 16.5. Conclusions -- 16.6. Acknowledgements -- 16.7. References -- pt. III Applications of terahertz technology -- 17. Terahertz applications in tomographic imaging and material spectroscopy: a review / K. Kawase -- 17.1. Introduction -- 17.2. Tomographic imaging applications -- 17.3. Quantitative analysis of powdered chemicals -- 17.4. Conclusion -- 17.5. References -- 18. Terahertz applications in the aerospace industry / D.T. Petkie -- 18.1. Introduction -- 18.2. Non-destructive evaluation of aircraft composites using transmissive terahertz time domain spectroscopy -- 18.3. Non-destructive evaluation of aircraft composites using reflective terahertz time domain spectroscopy -- 18.4. Continuous-wave non-destructive terahertz imaging for aerospace applications -- 18.5.Comparison of non-destructive imaging for glass fiber reinforced plastics -- 18.6. Conclusion -- 18.7. References -- 19. Terahertz applications in the wood products industry / T.M. Todoruk -- 19.1. Introduction -- 19.2. Applications of terahertz technology in the wood products industry -- 19.3. Wood structure and morphology -- 19.4. Far infrared properties of wood -- 19.5. Probing wood characteristics at terahertz frequencies -- 19.6. Terahertz sensing in the oriented strand board industry -- 19.7. Future trends -- 19.8. References -- 20. Terahertz applications in the pharmaceutical industry / B.B. Jin -- 20.1. Introduction -- 20.2. Terahertz time-domain spectroscopy (THz-TDS): spectroscopy set-up and analysis -- 20.3. Terahertz time-domain spectroscopy (THz-TDS): identification, quantification and analysis -- 20.4. Terahertz time-domain imaging (THz-TDI): imaging set-up and analysis -- 20.5. Terahertz time-domain imaging (THz-TDI): process monitoring, spectroscopic imaging and chemical mapping -- 20.6. Conclusions and future trends -- 20.7. Acknowledgement -- 20.8. References -- 21. Terahertz applications in art conservation / K. Fukunaga -- 21.1. Introduction -- 21.2. Material analysis using terahertz waves -- 21.3. Observation of the internal structure of artworks using terahertz waves -- 21.4. Prospective development of terahertz technology as a tool for heritage science -- 21.5. References -- 22. Applications of terahertz technology in the semiconductor industry / D. Goyal -- 22.1. Introduction -- 22.2. Characterizations of electro-optical terahertz pulse reflectometry (EOTPR) -- 22.3. Examples of failure analysis using electro-optical terahertz pulse reflectometry (EOTPR) -- 22.4. Conclusions and future trends -- 22.5. References.

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