Synopses & Reviews
Electromagnetic Noise and Quantum Optical Measurements is the result of more than 40 years of research and teaching. The first three chapters provide the background necessary to understand the basic concepts. Then shot noise and thermal noise are discussed, followed by linear noisy multiparts, the quantum theory of waveguides and resonators, an analysis of phase-insensitive systems, detection, photon probability distributions, solitons, phase-sensitive amplification, squeezing, the quantum theory of solitons and squeezing, and quantum non-demolition measurements. Rich appendices give additional information. The book is intended for graduate students and scientists in physics and engineering. Numerous problems and selected solutions will help readers to deepen their knowledge.
Review
"Haus' book provides numerous insights on topics of wide importance, and contains much material not available elsewhere in book form. [...] an indispensable resource for those working in quantum optics or electronics." --Optics & Photonics News
Synopsis
From the reviews: "Haus' book provides numerous insights on topics of wide importance, and contains much material not available elsewhere in book form. [...] an indispensable resource for those working in quantum optics or electronics." Optics & Photonics News
About the Author
Author died May 2003
Table of Contents
Maxwells' Equations, Power and Energy.- Waveguides and Resonators.- Diffraction, Dielectric Waveguides, Optical Fibers, and the Kerr Effect.- Shot Noise and Thermal Noise.- Linear Noisy Multiports.- Quantum Theory of Waveguides and Resonators.- Classical and Quantum Analysis of Phase Insensitive Systems.- Detection.- Photon Probability Distribution and Bit Error Rate of Channel with Optical Preamplification.- Solitons and Long Distance Fiber Communications.- Phase Sensitive Amplification and Squeezing.- Squeezing in Fibers.- Quantum Theory of Solitons and Squeezing.- Quantum Non-Demolition Measurements and the "Collapse" of the Wave Function.- Appendices.- Index.- References.