Name: Passive Components for Dense Optical Integration By Christina Manolatou
SKU: 9780792376033
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Passive Components for Dense Optical Integration Summary

Passive Components for Dense Optical Integration by Christina Manolatou

This volume presents a theoretical and numerical investigation of high index-contrast passive components that can serve as building blocks at the end-points and nodes of WDM communications systems. It presents novel devices for filtering, optical interconnections and coupling to fibres.

1 Introduction.- 1.1 Motivation.- 1.2 Outline of the book.- 1.2.1 Theoretical background.- 1.2.2 The FDTD method.- 1.2.3 Resonant channel add/drop filters.- 1.2.4 Low-loss waveguide components.- 1.2.5 Fiber-PIC coupling.- 2 Theoretical Background.- 2.1 Modes in optical waveguides.- 2.1.1 Normal modes.- 2.7.2 General form of guided fields.- 2.1.3 Orthogonality relations.- 2.1.4 Completeness of normal modes.- 2.2 Excitation of modes by localized currents.- 2.3 Scattering matrix.- 2.4 Effective Index Method (EIM).- 2.5 Resonators.- 2.5.1 Coupled resonators.- 2.5.2 Resonator-waveguide coupling.- 2.6 Gaussian Beams.- 2.6.1 Propagation of Gaussian beams.- 2.6.2 ABCD matrices.- 2.6.3 Approximation of effective index and mode profile using Gaussians.- 3 The Finite Difference Time Domain (FDTD) Method.- 3.1 The Yee algorithm.- 3.2 Finite Differencing.- 3.2.1 Three-dimensional algorithm.- 3.2.2 Two-dimensional algorithm.- 3.3 Boundary Conditions.- 3.4 Source Implementation.- 3.5 The use of Discrete Fourier Transform (DFT) in FDTD.- 3.6 Resonator calculations using FDTD.- 4 Resonant Add/Drop Filters.- 4.1 Introduction.- 4.2 Four-port system with single mode resonator.- 4.3 Symmetric standing-wave channel add/drop filters.- 4.3.1 General form of a symmetric channel add/drop filter.- 4.3.2 Symmetric add/drop filter with two identical standing-wave cavities66.- 4.4 FDTD simulations.- 4.4.1 Polygon resonators.- 4.4.2 Single square resonator coupled with two waveguides.- 4.4.3 Channel add/drop filter using a pair of square resonators.- 4.5 High-order symmetric add/drop filters.- 4.6 Phase response and dispersion.- 5 High Density Integrated Optics.- 5.1 Introduction.- 5.2 Sharp 90o bends.- 5.3 3D simulations and measurements on HTC bends.- 5.4 T-splitters.- 5.5 Waveguide crossings.- 6 Fiber-PIC coupling.- 6.1 Introduction.- 6.2 Lateral mode conversion using cascade of square resonators.- 6.3 Mode conversion using dielectric planar lenses.- 6.4 3D mode-conversion scheme.- 7 Conclusions and Future Directions.- 7.1 Summary.- 7.2 Fiber-chip coupling.- 7.3 Polarization dependence.- 7.4 Numerical tools.- References.

Additional information

Sku

NPB9780792376033

ISBN 13

9780792376033

ISBN 10

079237603X

Title

Passive Components for Dense Optical Integration by Christina Manolatou

Author

Christina Manolatou

Condition

New

Binding type

Hardback

Publisher

Springer

Year published

2001-11-30

Number of pages

170

Prizes

N/A

Cover note

Book picture is for illustrative purposes only, actual binding, cover or edition may vary.

Note

This is a new book - be the first to read this copy. With untouched pages and a perfect binding, your brand new copy is ready to be opened for the first time

Passive Components for Dense Optical Integration Christina Manolatou

Passive Components for Dense Optical Integration by Christina Manolatou

Summary

Passive Components for Dense Optical Integration Summary

Passive Components for Dense Optical Integration by Christina Manolatou

Table of Contents

Additional information

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