No subcategories See all
No subcategories See all
No subcategories See all
No subcategories See all
No subcategories See all
No subcategories See all
Optical Fiber Telecommunications VIII
is the latest instalment in a prestigious series that has chronicled the advancements in lightwave communications since its inception in
1979. This book is meticulously designed for engineers and scientists who are engaged in the cutting-edge research and development of optical communication systems and components. It serves as an invaluable resource for professionals and graduate students alike, offering comprehensive insights into the latest technological advancements. The book is also an ideal reference for R&D engineers, managers, optical systems implementers, university researchers, network operators, and investors who are keen on understanding the current trends and future directions in the field. The book is structured to cover significant developments in the optical communications landscape over the past seven years, with contributions from leading experts in academia and industry. The chapters are expected to provide authoritative and detailed discussions on various topics, such as low-loss hollow-core fibers, photonic integrated circuits, quantum communications, and THz communication links. The inclusion of innovative subjects like digital twins for optical networks and the integration of optical technologies into the 6G wireless standard highlights the book's forward-looking approach. As the demand for data capacity and bandwidth continues to surge, Optical Fiber Telecommunications VIII captures the rich and varied technical innovations that are shaping the future of global communications infrastructure.
A. Devices/Subsystems Technologies
1. Low-loss and low-nonlinearity hollow-core fibers using nanostructures
2. Co-packaging of low-power, high-speed electrical & optical devices
3. Photonic integrated circuits using heterogeneous materials
4. Capabilities of worldwide foundries for advanced photonics integrated circuits (Si, and beyond Si)
5. Thin-film lithium niobate for high-speed and low-power modulators
6. Programmable optical circuits (e.g., Mach-Zehnder arrays)
7. Photonic integrated circuits for quantum communications
8. Devices for space-division-multiplexing (e.g., multiplexers, mode converters, fibers, waveguides)
9. On-chip optical amplifiers
B. System and Network Technologies
10. Digital twins for optical networks
11. Multi-band fiber transmission systems (including O band)
12. Quantum communication systems
13. Classical satellite communication networks (including radiation hardening)
14. Underwater optical communication systems
15. THz communication links enabled by optical technologies
16. Sensing using transmission fibers (e.g., earthquakes)
17. Optical technologies being incorporated into the 6G wireless standard
18. High-speed optical access networks (e.g., coherent PON)
19. Implementing machine learning to enhance performance of optical networks
Ratings & Reviews
No Review Found