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Integrated silicon-based optical modulators : 100 Gb/s and beyond / Kensuke Ogawa.

SPIE Digital Library eBooks Available online

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Format:
Book
Author/Creator:
Ogawa, Kensuke, author.
Contributor:
Society of Photo-Optical Instrumentation Engineers, publisher.
Series:
SPIE monograph ; PM302.
SPIE digital library
SPIE Press monograph ; PM302
Language:
English
Subjects (All):
Light modulators.
Silicon--Optical properties.
Silicon.
Integrated optics.
Genre:
Electronic books.
Physical Description:
1 online resource (254 pages).
Place of Publication:
Bellingham, Washington, USA : SPIE Press, [2019]
System Details:
Mode of access: World Wide Web.
text file
Summary:
"This book discusses the principles and the latest progress of silicon optical modulators as cutting-edge integrated photonic devices on silicon-photonic platforms, which play key roles in modern optical communications with low power consumption, small footprints, and low manufacturing costs. Silicon Mach-Zehnder optical modulators are emphasized as the principal small-footprint optical modulator because of its superior performance in high-speed optical modulation at operational temperatures beyond 100 degrees Celsius without power-consuming thermo-electric cooling in spectral bands over 100 nm"-- Provided by publisher.
Contents:
Preface
Glossary of terms
1. Introduction
2. Background: 2.1. High-capacity optical networks; 2.2. Optical modulators in high-capacity optical networks
3. Introduction to integrated optical modulators: 3.1. Classification of optical modulators; 3.2. High-speed broadband Mach / Zehnder optical modulators; 3.3. Integrated silicon-based Mach / Zehnder optical modulators
4. Optical circuits and waveguides in integrated Mach / Zehnder optical modulators: 4.1. Optical circuits; 4.2. Transfer-matrix framework; 4.3. Optical waveguide and optical mode; 4.4. Optical waveguide features
5. Electronic and opto-electronic properties of high-speed phase shifters: 5.1. Physics in phase modulation; 5.2. Classification of phase shifters using free-carrier plasma dispersion; 5.3. Design and modeling of PN-junction phase shifters
6. Optical, electrical, and electro-optical characteristics of integrated silicon-based optical modulators: 6.1. DC optical characteristics; 6.2. DC electrical characteristics; 6.3. RF frequency characteristics; 6.4. Transient characteristics
7. Transmission characteristics of integrated silicon-based optical modulators: 7.1. Applications in optical network domains at 100 Gb/s and beyond; 7.2. On / off keying and pulse amplitude modulation; 7.3. Phase-shift keying; 7.4. Polarization-division-multiplexed quadrature phase-shift keying; 7.5. Discrete multi-tone scheme; 7.6. Note on transmission characteristics
8. Photonic / electronic integration with silicon-based optical modulators: 8.1. Integration with electronic and photonic devices; 8.2. Integration of optical performance monitoring
Appendix: A.1. Bit rates and modulation formats in high-capacity optical networks; A.2. Kramers / Kronig transformation
Index.
Notes:
"SPIE Digital Library."--Website.
Includes bibliographical references and index.
Title from PDF title page (SPIE eBooks Website, viewed 2019-05-03).
Other Format:
Online version: Ogawa, Kensuke, author. Integrated silicon-based optical modulators
Print version
ISBN:
9781510625822
OCLC:
1083672956
Access Restriction:
Restricted for use by site license.

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