ABSTRACT

As the limits of electrical performance come within sight, photons are poised to take over for the electron. But the search continues for the materials, topologies, and fabrication technologies capable of producing photonic devices at a reasonable speed and cost. Taking a fundamentallook at the development of photonic technology from the macro- to the microscale, Applied Microphotonics introduces the major principles and technologies underlying the field.

Following an overview of historical and commercial driving forces, the authors briefly review the underlying physics, emphasizing the practical and design implications for photonic systems. This general discussion lays the foundation for the remainder of the book, where the authors first introduce the photonic node and then discuss each subsystem in detail, including transmitters, couplers and switches, multiplexers and demultiplexers, receivers, amplifiers, and compensators. The following chapters explore new technologies such as photonic band gap structures, materials and fabrication processes, integration methodologies, and advanced devices such as photonic computers. The book concludes with a brief introduction to quantum photonics and a forward look at potential directions of photonics.

Applied Microphotonics encapsulates the recent push toward all-optical networks and devices with an applications-oriented perspective. It is ideal for newcomers to the field as well as anyone curious to know how photonic technology can benefit their own field.

chapter 1|9 pages

Introduction

chapter 2|15 pages

Technological Growth and the Market Push

chapter 4|10 pages

Photonic Node

chapter 5|25 pages

Transmitters

chapter 6|33 pages

Couplers and Switches

chapter 7|12 pages

Multiplexers

chapter 8|7 pages

Receivers

chapter 9|17 pages

Amplifiers and Compensators

chapter 10|15 pages

New Technologies

chapter 11|31 pages

Materials, Fabrication, and Integration

chapter 12|33 pages

Advanced Microphotonic Devices

chapter 13|43 pages

Quantum Photonic Systems

chapter 14|61 pages

Future Systems and Their Applications

chapter 15|1 pages

Conclusion