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As wireless networks evolve into the era of 5G, 6G, and THz technologies, Microwave Photonics is rapidly emerging as a cornerstone for high-frequency communication, advanced sensing, and next-generation radar systems. Yet designing these complex systems demands more than theory it requires mastery of practical, simulation-based techniques.
Simulation Techniques in Microwave Photonics Systems is a comprehensive guide that brings together the theory and hands-on simulation of modern microwave photonic architectures. Using industry-leading platforms, OptiSystem® and ADS® (Advanced Design System), this book walks the reader through the design, modeling, and analysis of photonic subsystems for high-frequency RF applications, including:
- RF signal generation via Mach-Zehnder and Polarization modulators
- High-order frequency multiplication and optical frequency comb design
- Simulation and optimization of photonic transceivers for radio over fiber (RoF) links
- Emerging techniques for THz signal generation suitable for 5G/6G infrastructure
Whether you are a
graduate student, researcher, or engineering professional, this book serves as both a practical manual and a technical reference equipping the reader with the tools to simulate, innovate, and lead in one of the fastest-moving fields in modern technology.
Table des matières
Introduction.- Microwave Photonics Overview.- Radio Frequency Generation Using External Optical Modulation.- Frequency Multiplication Techniques for High RF Generation.- Generation of Optical Frequency Comb.- Photonic based RF Transceiver Design for Radio over Fiber Systems.- Application and Future of Microwave Photonics.- Conclusion.
A propos de l'auteur
Dr. Rangana Banerjee Chaudhuri is a Scientist and European Union Research Project Leader at the National Metrology Institute of Germany (PTB) in the Experimental Quantum Metrology division since January 2024. She is responsible for managing European Union project involving 12 partners, and developing testbeds for characterizing integrated nanophotonic components used in optical clocks, quantum computers, quantum sensors, and ion traps.
Résumé
As wireless networks evolve into the era of 5G, 6G, and THz technologies, Microwave Photonics is rapidly emerging as a cornerstone for high-frequency communication, advanced sensing, and next-generation radar systems. Yet designing these complex systems demands more than theory – it requires mastery of practical, simulation-based techniques.
Simulation Techniques in Microwave Photonics Systems is a comprehensive guide that brings together the theory and hands-on simulation of modern microwave photonic architectures. Using industry-leading platforms, OptiSystem® and ADS® (Advanced Design System), this book walks the reader through the design, modeling, and analysis of photonic subsystems for high-frequency RF applications, including:
- RF signal generation via Mach-Zehnder and Polarization modulators
- High-order frequency multiplication and optical frequency comb design
- Simulation and optimization of photonic transceivers for radio over fiber (RoF) links
- Emerging techniques for THz signal generation suitable for 5G/6G infrastructure
Whether you are a
graduate student, researcher, or engineering professional, this book serves as both a practical manual and a technical reference – equipping the reader with the tools to simulate, innovate, and lead in one of the fastest-moving fields in modern technology.
