Optical fiber multiplexing and emerging techniques : SDM and OAM / Syed H. Murshid.

By: Murshid, Syed H [author.]Contributor(s): Morgan & Claypool Publishers [publisher.] | Institute of Physics, IOP - EBA (Great Britain) [publisher.]Material type: TextTextSeries: IOP (Series)Release 5 | IOP concise physics | Series on electromagnetics and metamaterialsPublisher: San Rafael [California] (40 Oak Drive, San Rafael, CA, 94903, USA) : Morgan & Claypool Publishers, [2018]Distributor: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2018]Description: 1 online resource (various pagings) : illustrations (chiefly color)Content type: text Media type: electronic Carrier type: online resourceISBN: 9781681745695 ebookSubject(s): Wavelength division multiplexing | Medical physics | TECHNOLOGY & ENGINEERING / Lasers & PhotonicsAdditional physical formats: Print version:: No titleDDC classification: 621.382/16 LOC classification: TK5103.592.W38 M876 2018ebOnline resources: e-book Full-text access Also available in print.
Contents:
1. Introduction -- 1.1. Overview -- 1.2. Optical communication system structure -- 1.3. Transmitter -- 1.4. Communication channel -- 1.5. Law of refraction -- 1.6. Types of optical fiber and their geometry -- 1.7. Modes in fiber -- 1.8. Advantag
2. Fundamentals of multiplexing in optical fibers -- 2.1. Overview -- 2.2. Optical time division multiplexing and de-multiplexing -- 2.3. Wavelength division multiplexing and de-multiplexing -- 2.4. Polarization division multiplexing (PDM) and d
3. Spatial domain multiplexing : ray theory approach -- 3.1. Overview -- 3.2. Introduction -- 3.3. Skew ray analysis -- 3.4. Simulated results -- 3.5. Summary
4. Spatial domain multiplexing : electromagnetic wave analysis -- 4.1. Overview -- 4.2. Gloge's approach -- 4.3. Optical vortex -- 4.4. Optical vortex in an optical fiber -- 4.5. Experimental results -- 4.6. Summary
5. Spatial domain multiplexing and orbital angular momentum of photon-based multiplexing -- 5.1. Overview -- 5.2. Introduction -- 5.3. Theory -- 5.4. Experimental results -- 5.5. Summary
6. Laguerre-Gaussian modes and their quantum numbers -- 6.1. Overview -- 6.2. Ray theory approach -- 6.3. Bessel beams approach -- 6.4. LG beams -- 6.5. Creating LG modes -- 6.6. Higher-order LG beams -- 6.7. The size of the central ring -- 6.8.
7. SDM modes using modified Laguerre-Gaussian equations -- 7.1. Overview -- 7.2. SDM modes -- 7.3. Analogy between typical LG patterns and SDM patterns -- 7.4. Conclusion
8. Creating donut modes using spatial domain multipexing -- 8.1. Overview -- 8.2. Generation and analysis of donut beams using SDM -- 8.3. Multi-input multi-output (MIMO) multiplexing -- 8.4. Analysis and simulation of SDM modes -- 8.5. Intensit
9. Merging the models : work in progress -- 9.1. A recap -- 9.2. Input channel region -- 9.3. Carrier fiber region -- 9.4. Closing remarks
10. Conclusion -- 10.1. Summary -- 10.2. Future work.
Abstract: This book begins with the history and fundamentals of optical fiber communications. Then, briefly introduces existing optical multiplexing techniques and finally focuses on spatial domain multiplexing (SDM), aka space division multiplexing, and
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IOP Science eBook - EBA TK5103.592.W38 M876 2018eb (Browse shelf (Opens below)) Available IOP_20210034

"Version: 20180901"--Title page verso.

"A Morgan & Claypool publication as part of IOP Concise Physics"--Title page verso.

Includes bibliographical references.

1. Introduction -- 1.1. Overview -- 1.2. Optical communication system structure -- 1.3. Transmitter -- 1.4. Communication channel -- 1.5. Law of refraction -- 1.6. Types of optical fiber and their geometry -- 1.7. Modes in fiber -- 1.8. Advantag

2. Fundamentals of multiplexing in optical fibers -- 2.1. Overview -- 2.2. Optical time division multiplexing and de-multiplexing -- 2.3. Wavelength division multiplexing and de-multiplexing -- 2.4. Polarization division multiplexing (PDM) and d

3. Spatial domain multiplexing : ray theory approach -- 3.1. Overview -- 3.2. Introduction -- 3.3. Skew ray analysis -- 3.4. Simulated results -- 3.5. Summary

4. Spatial domain multiplexing : electromagnetic wave analysis -- 4.1. Overview -- 4.2. Gloge's approach -- 4.3. Optical vortex -- 4.4. Optical vortex in an optical fiber -- 4.5. Experimental results -- 4.6. Summary

5. Spatial domain multiplexing and orbital angular momentum of photon-based multiplexing -- 5.1. Overview -- 5.2. Introduction -- 5.3. Theory -- 5.4. Experimental results -- 5.5. Summary

6. Laguerre-Gaussian modes and their quantum numbers -- 6.1. Overview -- 6.2. Ray theory approach -- 6.3. Bessel beams approach -- 6.4. LG beams -- 6.5. Creating LG modes -- 6.6. Higher-order LG beams -- 6.7. The size of the central ring -- 6.8.

7. SDM modes using modified Laguerre-Gaussian equations -- 7.1. Overview -- 7.2. SDM modes -- 7.3. Analogy between typical LG patterns and SDM patterns -- 7.4. Conclusion

8. Creating donut modes using spatial domain multipexing -- 8.1. Overview -- 8.2. Generation and analysis of donut beams using SDM -- 8.3. Multi-input multi-output (MIMO) multiplexing -- 8.4. Analysis and simulation of SDM modes -- 8.5. Intensit

9. Merging the models : work in progress -- 9.1. A recap -- 9.2. Input channel region -- 9.3. Carrier fiber region -- 9.4. Closing remarks

10. Conclusion -- 10.1. Summary -- 10.2. Future work.

This book begins with the history and fundamentals of optical fiber communications. Then, briefly introduces existing optical multiplexing techniques and finally focuses on spatial domain multiplexing (SDM), aka space division multiplexing, and

Also available in print.

Mode of access: World Wide Web.

System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.

Syed H Murshid is Professor of Electrical & Computer Engineering at Florida Institute of Technology in Melbourne, Florida. He received his BE in Electronics Engineering from NED University of Engineering and Technology, his MS and PDH in Electri

Title from PDF title page (viewed on October 16, 2018).