Fundamentals of TeraHertZ Devices and Applications 2021 1st edition by Dmitris Pavlidis 1119460719 9781119460718

Fundamentals of TeraHertZ Devices and Applications 2021 1st edition Dmitris Pavlidis Editor – Ebook PDF Instant Download/Delivery, ISBN: 1119460719, 9781119460718

Product details:

• ISBN 10:1119460719
• ISBN 13:9781119460718
• Author: Dmitris Pavlidis 

Fundamentals of Terahertz Devices and Applications

Table contents:

1 Introduction to THz Technologies
2 Integrated Silicon Lens Antennas at Submillimeter‐wave Frequencies
2.1 Introduction
2.2 Elliptical Lens Antennas
2.3 Extended Semi‐hemispherical Lens Antennas
2.4 Shallow Lenses Excited by Leaky Wave/Fabry–Perot Feeds
2.5 Fly‐eye Antenna Array
Exercises
References
3 Photoconductive THz Sources Driven at 1550 nm
3.1 Introduction
3.2 1550‐nm THz Photoconductive Sources
3.3 THz Metrology
3.4 THz Antenna Coupling
3.5 State of the Art in 1550‐nm Photoconductive Sources
3.6 Alternative 1550‐nm THz Photoconductive Sources
3.7 System Applications
Exercises
References
Explanatory Notes (see superscripts in text)
4 THz Photomixers
4.1 Introduction
4.2 Photomixing Basics
4.3 Modeling THz Photomixers
4.4 Standard Photomixing Devices
4.5 Optical Cavity Based Photomixers
4.6 THz Antennas
4.7 Characterization of Photomixing Devices
Exercises
References
5 Plasmonics‐enhanced Photoconductive Terahertz Devices
5.1 Introduction
5.2 Photoconductive Antennas
5.3 Plasmonics‐enhanced Photoconductive Antennas
5.4 Conclusion and Outlook
Exercises
References
6 Terahertz Quantum Cascade Lasers
6.1 Introduction
6.2 Fundamentals of Intersubband Transitions
6.3 Active Material Design
6.4 Optical Waveguides and Cavities
6.5 State‐of‐the‐Art Performance and Limitations
6.6 Novel Materials Systems
6.7 Conclusion
Acknowledgments
Exercises
References
7 Advanced Devices Using Two‐Dimensional Layer Technology
7.1 Graphene‐Based THz Devices
7.2 TMD Based THz Devices
7.3 Applications
Exercises
References
8 THz Plasma Field Effect Transistor Detectors
8.1 Introduction
8.2 Field Effect Transistors (FETs) and THz Plasma Oscillations
8.3 THz Detectors Based on Silicon FETs
8.4 Terahertz Detection by Graphene Plasmonic FETs
8.5 Terahertz Detection in Black‐Phosphorus Nano‐Transistors
8.6 Diamond Plasmonic THz Detectors
8.7 Conclusion
Exercises
References
9 Signal Generation by Diode Frequency Multiplication
9.1 Introduction
9.2 Bridging the Microwave to Photonics Gap with Terahertz Frequency Multipliers
9.3 A Practical Approach to the Design of Frequency Multipliers
9.4 Technology of THz Diode Frequency Multipliers
9.5 Power‐Combining at Sub‐Millimeter Wavelength
9.6 Conclusions and Perspectives
Exercises
References
Explanatory Notes (see superscripts in text)
10 GaN Multipliers
10.1 Introduction
10.2 Theoretical Considerations of GaN Schottky Diode Design
10.3 Fabrication Process of GaN Schottky Diodes
10.4 Small‐signal High‐frequency Characterization of GaN Schottky Diodes
10.5 Large‐signal On‐wafer Characterization
10.6 GaN Diode Implementation for Signal Generation
10.7 Multiplier Considerations for Optimum Performance
Exercises
References
11 THz Resonant Tunneling Devices
11.1 Introduction
11.2 Principle of RTD Oscillators
11.3 Structure and Oscillation Characteristics of Fabricated RTD Oscillators
11.4 Control of Oscillation Spectrum and Frequency
11.5 Targeted Applications
Exercises
References
12 Wireless Communications in the THz Range
12.1 Introduction
12.2 Evolution of Telecoms Toward THz
12.3 THz Technologies: Transmitters, Receivers, and Basic Architecture
12.4 Devices/Function Examples for T‐Ray CMOS
12.5 THz Links
12.6 Toward Normalization of 100G Links in the THz Range
12.7 Conclusion
12.8 Acronyms
E12.1 Link Budget of a THz Link
References
13 THz Applications: Devices to Space System
13.1 Introduction
13.2 THz Heterodyne Receivers
13.3 THz Space Applications
13.4 Summary and Future Trends

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