Photonic Crystals: Molding the Flow of Light [Hardcover]

John D. Joannopoulos (Author), Robert D. Meade (Author), Joshua N. Winn (Author)

Book Description

ISBN-10: 0691037442 | ISBN-13: 978-0691037448 | Publication Date: July 3, 1995

Photonic Crystals is the first book to address one of the newest and most exciting developments in physics--the discovery of photonic band-gap materials and their use in controlling the propagation of light. Recent discoveries show that many of the properties of an electron in a semiconductor crystal can apply to a particle of light in a photonic crystal. This has vast implications for physicists, materials scientists, and electrical engineers and suggests such possible developments as an entirely optical computer. Combining cutting-edge research with the basic theoretical concepts behind photonic crystals, the authors present to undergraduates and researchers a concise, readable, and comprehensive text on these novel materials and their applications.

The first chapters develop the theoretical tools of photonic crystals in a broad, intuitive fashion, starting from nothing more than Maxwell's equations and Fourier analysis, and include analogies to traditional solid-state physics and quantum theory. There follows an investigation of the unique phenomena that take place within photonic crystals, at defect sites, and at surfaces and interfaces. The authors offer a new treatment of the traditional multilayer film (a one-dimensional photonic crystal), which allows for the extension to higher dimensions and more complex geometries. After exploring the capabilities of photonic crystals to guide and localize light, the authors demonstrate how these notions can be put to work.

Editorial Reviews

Review

A timely and well-written account of this new field ... full of colorful computer-generated illustrations.
(Nature )

From the Inside Flap

"This book is destined to become the classic textbook in the area. It gathers together the fundamental concepts and tools relevant to photonic crystals and presents them with exceptional clarity. I genuinely enjoyed reading it."--Maryanne Large, University of Sydney

"An excellent textbook to be used in physics, chemistry, and engineering. The revised edition of Photonic Crystals fills the gap between the layperson and the expert reader."--Costas M. Soukoulis, Iowa State University

--This text refers to an alternate Hardcover edition.

See all Editorial Reviews

Product Details

• Hardcover: 184 pages
• Publisher: Princeton University Press (July 3, 1995)
• Language: English
• ISBN-10: 0691037442
• ISBN-13: 978-0691037448
• Product Dimensions: 9.4 x 6.4 x 0.7 inches
• Shipping Weight: 1 pounds
• Average Customer Review: 4.6 out of 5 stars  See all reviews (10 customer reviews)
• Amazon Best Sellers Rank: #1,757,160 in Books (See Top 100 in Books)

Customer Reviews

Most Helpful Customer Reviews

10 of 10 people found the following review helpful:

5.0 out of 5 stars Well written, concise, valuable book, August 13, 2008

By 

Ardavan Oskooi (Cambridge, MA) - See all my reviews
(REAL NAME)   

This review is from: Photonic Crystals: Molding the Flow of Light (Second Edition) (Hardcover)

First, a disclaimer: I am a graduate student working within the research group of two of the authors (JDJ & SGJ). I used the first edition of this book (as did many other researchers) extensively when being first introduced to this field and have been able to compare it with this most recent edition given my familiarity with both editions. The 2nd edition is a significant improvement over the 1st edition, for many reasons: 1) the content is further polished and well presented (owing in part to the emphasis on clarity in communication placed within our group), 2) the figures, equations, and fonts are much more readable than before and 3) there are at least three new chapters that provide timely information on emerging subfields (periodic dielectric waveguides, photonic crystal slabs and photonic crystal fibers). An extensive (and expanded) bibliography and appendix (with an extra section on computational photonics) supplement the main text well. The book is at least twice as thick as the 1st edition with new and updated content and is exquisitely bound & illustrated. Indeed, it is true that a free copy of this book has been posted on the authors' website, but owning a hard copy is a valuable reference as well. The 2nd edition is not simply a superficial revision of the 1st, it is a much needed improvement for a field that has seen a tremendous amount of growth in the intervening years of the books' first publication.

15 of 17 people found the following review helpful:

5.0 out of 5 stars Quite an enjoyable read!, June 16, 2000

By A Customer

This review is from: Photonic Crystals: Molding the Flow of Light (Hardcover)

Graduate students (or advanced physics undergrads) will appreciate the beautiful analogy this book makes between solid state physics, which gave us semiconductor devices, and the newer field of photonics, which promises a revolution in optical devices. The writing is clear and consise, and the many colorful illustrations aid the reader in formulating a picture of how it all works. Just plain WELL DONE -- more physics texts should read like this one.

6 of 7 people found the following review helpful:

5.0 out of 5 stars as an author of the book..., February 27, 2008

By 

Steven G. Johnson (Cambridge, MA) - See all my reviews
(REAL NAME)   

This review is from: Photonic Crystals: Molding the Flow of Light (Second Edition) (Hardcover)

As a co-author of the new edition, I'm obviously a bit biased, but I think this book occupies a unique position in this field as a broad advanced-undergraduate/beginning-graduate introduction to photonic crystals and light in periodic media, focusing on timeless fundamentals and richly illustrated with examples of many different structures. Compared to the first edition, it is greatly expanded and improved, with almost every chapter seeing significant revisions and several entirely new chapters; the second edition is roughly double the length of the first.

However, the main reason I am posting here is that you don't need to take my word for it; the publishers have allowed us to post a PDF of the entire book online for no cost, so you can determine whether it is useful to you before purchasing the paper version (beautifully printed in full color). See ab-initio.mit.edu/book (where you can also find errata etcetera).

Compared to classic textbooks like Hecht or Jackson, this book occupies a somewhat different ground. It is not concerned with geometric optics (where the wavelength is small compared to the structure) or with the handful of geometries that can be solved almost completely analytically (vacuum, planes, cylinders, and spheres). Rather, it deals with the vast array of problems in nanophotonics where the wavelength is comparable to the structure, and especially with periodic (or partially periodic) "crystalline" structures. In these cases, although completely analytical solutions are usually impossible, the book explains how there are more general principles such as symmetry and linear algebra that reveal the fundamental structure and behavior of light in such media. The book uses these principles to explain the most important optical properties of these structures, from confinement of light in 3d band gaps to periodic dielectric waveguides and optical fibers. It also introduces the powerful tool of temporal coupled-mode theory to design devices by coupling waveguides and microcavities.