Advances in Information Optics and Photonics - Friberg

This volume is the sixth in a series of books initiated in 1989 by the International Commission for Optics (ICO). These books highlight the advances and trends in the research and development of optical sciences, technologies, and applications at the time of their publication.

In this age of the photon, information optics and photonics represent the key technologies to sustain our knowledge-based society. New concepts in classical and quantum-entangled light, coherent interaction with matter, and novel materials and processes have led to remarkable advances in today's information science and technology. The ICO is closely involved with information optics, as exemplified by the ICO topical meeting on Optoinformatics / Information Photonics (St. Petersburg, Russia, 2006), the ICO/ICTP Winter College on Quantum and Classical Aspects of Information Optics (Trieste, Italy, 2006), and the many ICO Prizes recently awarded on outstanding contributions on these topics. This book is in part based on these ICO activities.

This volume contains a collection of 32 chapters from internationally leading scientists and research groups on a variety of topics in information optics and photonics, including the 2003-2006 ICO Prize winners. The chapters are divided into 7 sections: Beam Optics; Laser Photonics and Components; Electromagnetic Coherence; Imaging, Microscopy, Holography, and Materials; Photonic Processing; Quantum Information and Matter; and Communications and Networks.

This volume was edited by Ari T. Friberg, ICO President, and René Dändliker, ICO Past President (2005-2008). Dr. Friberg is Professor of Optics at the Royal Institute of Technology (KTH), Stockholm, Sweden, and Finland Distinguished Professor at Helsinki University of Technology (TKK) and the University of Joensuu, Finland. Dr. Dändliker is Emeritus Professor at the Institute of Microtechnology, University of Neuchâtel, Switzerland, and President of the Swiss Academy of Engineering Sciences.

Sample Pages (PDF)

List of Contributors	ix
Preface	xv
ICO International Trends in Optics Series History	xix

I. Beam Optics

1.	First-Order Optical Systems for Information Processing Tatiana Alieva	1
2.	Applications of the Wigner Distribution to Partially Coherent Light Beams Martin J. Bastiaans	27
3.	Characterization of Elliptic Dark Hollow Beams Julio C. Gutiérrez-Vega	57
4.	Transfer of Information Using Helically Phased Modes Miles Padgett, Graham Gibson, and Johannes Courtial	77

II. Laser Photonics and Components

5.	Microoptical Components for Information Optics and Photonics Christof Debaes, Heidi Ottevaere, and Hugo Thienpont	89
6.	Intracavity Coherent Addition of Lasers Vardit Eckhouse, Amiel A. Ishaaya, Liran Shimshi, Nir Davidson, and Asher A. Friesem	117
7.	Light Confinement in Photonic Crystal Microcavities Philippe Lalanne and Christophe Sauvan	137
8.	Limits to Optical Components David A. B. Miller	153

III. Electromagnetic Coherence

9.	An Overview of Coherence and Polarization Properties for Multicomponent Electromagnetic Waves Alfredo Luis	171
10.	Intrinsic Degrees of Coherence for Electromagnetic Fields Philippe Réfrégier and Antoine Roueff	189

IV. Imaging, Microscopy, Holography, and Materials

11.	Digital Computational Imaging Leonid Yaroslavsky	209
12.	Superresolution Processing of the Response in Scanning Differential Heterodyne Microscopy Dmitry V. Baranov and Evgeny M. Zolotov	229
13.	Fourier Holography Techniques for Artificial Intelligence Alexander V. Pavlov	251
14.	Division of Recording Plane for Multiple Recording and Its Digital Reconstruction Based on Fourier Optics Guoguang Mu and Hongchen Zhai	271
15.	Fundamentals and Advances in Holographic Materials for Optical Data Storage Maria L. Calvo and Pavel Cheben	285
16.	Holographic Data Storage in Low-Shrinkage Doped Photopolymer Shiuan Huei Lin, Matthias Gruber, Yi-Nan Hsiao, and Ken Y. Hsu	317

V. Photonic Processing

17.	Temporal Optical Processing Based on Talbot's Effects Jürgen Jahns, Adolf W. Lohmann, and Hans Knuppertz	343
18.	Spectral Line-by-Line Shaping Andrew M. Weiner, Chen-Bin Huang, Zhi Jiang, Daniel E. Leaird, and Jose Caraquitena	359
19.	Optical Processing with Longitudinally Decomposed Ultrashort Optical Pulses Robert Saperstein and Yeshaiahu Fainman	381
20.	Ultrafast Information Transmission by Quasi-Discrete Spectral Supercontinuum Mikhail A. Bakhtin, Victor G. Bespalov, Vitali N. Krylov, Yuri A. Shpolyanskiy, and Sergei A. Kozlov	405

VI. Quantum Information and Matter

21.	Noise in Classical and Quantum Photon-Correlation Imaging Bahaa E. A. Saleh and Malvin Carl Teich	423
22.	Spectral and Correlation Properties of Two-Photon Light Maria V. Chekhova	437
23.	Entanglement-Based Quantum Communication Alexios Beveratos and Sébastien Tanzilli	457
24.	Exploiting Optomechanical Interactions in Quantum Information Claudiu Genes, David Vitali, and Paolo Tombesi	489
25.	Optimal Approximation of Non-Physical Maps via Maximum Likelihood Estimation Vladimír Bužek, Mário Ziman, and Martin Plesch	513
26.	Quantum Processing Photonic States in Optical Lattices Christine A. Muschik, Inés de Vega, Diego Porras, and J. Ignacio Cirac	533
27.	Strongly Correlated Quantum Phases of Ultracold Atoms in Optical Lattices Immanuel Bloch	555

VII. Communications and Networks

28.	The Intimate Integration of Photonics and Electronics Ashok V. Krishnamoorthy	581
29.	Echelle and Arrayed Waveguide Gratings for WDM and Spectral Analysis Pavel Cheben, André Delâge, Siegfried Janz, and Dan-Xia Xu	599
30.	Silicon Photonics—Recent Advances in Device Development Andrew P. Knights and J. K. Doylend	633
31.	Toward Photonic Integrated Circuit All-Optical Signal Processing Base on Kerr Nonlinearities David J. Moss and Benjamin J. Eggleton	657
32.	Ultrafast Photonic Processing Applied to Photonic Networks Hideyuki Sotobayashi	687

Index

713

Preface

This volume is the sixth in a series of books that the International Commission for Optics (ICO) edits for publication at the time of its triennial congresses. The earlier volumes have covered a broad scope of interests in optics at the time and have dealt with fundamental subjects, while the later editions have increasingly addressed advances in applied optics and photonics. The books previously published in the series are:

International Trends in Optics, ed. J. W. Goodman, USA (Academic Press, 1991)
Current Trends in Optics, ed. J. C. Dainty, UK (Academic Press, 1994)
Trends in Optics - Research, Developments and Applications, ed. A. Consortini, Italy (Academic Press, 1996)
International Trends in Optics and Photonics, ed. T. Asakura, Japan (Springer, 1999)
International Trends in Applied Optics, ed. A. H. Guenther, USA (SPIE Press, 2002)

The complete history of the ICO Book series, including the Tables of Contents of the previous volumes, can be found on p. vi of this book. Besides highlighting the main developments of international optics and photonics, the aim of this book series is to promote the general awareness of the ICO and raise funds for its global activities, in particular the travelling lecturer program, which is aimed at enhancing optics in developing nations. Therefore all royalties will go to the ICO for that purpose.

In today's 'age of light', optical information science and technology play a central role. The ICO has a long tradition in the subjects of information optics, dating back to the ICO topical meetings in Kyoto, Japan 1994 (Frontiers in Information Optics) and Tianjin, China 1998 (Optics for Information Infrastructure). The ICO has also been a permanent sponsor of the Optical Computing / Optics in Computing conferences, a series of meetings spanning well over a decade. In 2006, the ICO organized two key events on information optics: the ICO topical meeting on Optoinformatics / Information Photonics in St. Petersburg, Russia (Chairs A. V. Pavlov, M. L. Calvo, and J. Jahns) and the ICO/ICTP Winter College on Optics in Trieste, Italy, with title "Quantum and Classical Aspects of Information Optics" (Directors P. Tombesi, M. L. Calvo, and P. Knight). Additionally, the recent ICO Prizes - most notably those in 2003 (B. J. Eggleton), 2004 (A. V. Krishnamoorthy), 2005 (I. Bloch), and 2006 (H. Sotobayashi) - have dealt with various basic and applied aspects of optical information. Hence it was quite natural to take advantage of these developments and focus the current volume of the ICO Book series on Advances in Information Optics and Photonics.

The present volume VI differs from the previous ones in at least three respects: it concentrates on a specific, though extremely important, topic within the broad field of optics and photonics, it does not contain the words 'International Trends' explicitly in the title, and it is published as a paperback. We hope that with these changes the book will find its way as a standard reading and reference material on the topic. The volume consists of 32 invited contributions from scientists or research groups working throughout the world on optical information science, technology, and applications. Many of the authors have actively participated in the ICO conferences and other activities and all of them are internationally recognized leaders in their respective subjects.

Many new concepts in classical and quantum-entangled light, coherent interaction with matter, novel materials and processes have lead to remarkable breakthroughs in information science and technology. While it is difficult, and sometimes even dangerous, to group the contributions under separate headings, we have divided the chapters of this book into 7 sections:

Beam Optics
Laser Photonics and Components
Electromagnetic Coherence
Imaging, Microscopy, Holography, and Materials
Photonic Processing
Quantum Information and Matter
Communications and Networks

The sections contain chapters that address optical information sciences broadly in the linear, nonlinear, classical, and quantum regimes and describe the foundations, state-of-the-art devices and technologies, as well as the diverse applications of information optics and photonics. It is hoped that the reader will find chapters that are directly relevant to his/her own work or otherwise will create interest in this fascinating, rapidly advancing, and highly potential subject.

We would like to express our sincere appreciation to all of the authors who have devoted their time, effort, and expertise to write the superb and timely contributions for this volume. We would also like to thank the staff of SPIE Press, and especially Merry Schnell, Gwen Weerts, and Eric Pepper, for their professional work to produce this high-quality publication for the benefit of the global optics and photonics community.

Ari T. Friberg
President, International Commission for Optics
Royal Institute of Technology (KTH), Stockholm, Sweden
Helsinki University of Technology (TKK), Espoo, Finland
University of Joensuu, Finland

René Dändliker
Past President, International Commission for Optics
President of the Swiss Academy of Engineering Sciences
University of Neuchâtel, Switzerland

Advances in Information Optics and Photonics (SPIE Press Book)

Table of Contents

Preface

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