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Physics of Optoelectronics (Optical Engineering)
By: Michael A. Parker
ISBN: 0824753852, ISBN-13: 9780824753856
Publisher: CRC - 2005-05-23
Hardcover | 798 Pages
QUOTE
Editorial Review:
Physics of Optoelectronics integrates into one comprehensive treatment introductions to semiconductor lasers and optics, linear algebra and quantum mechanics for optoelectronics, and quantum optics. It builds all the background you need to understand current research and publications of laser engineering-physics, from the basics of lasers and LEDs through the rate equations to the quantum mechanical expressions for gain and optical fields. Topics include an introduction to semiconductor lasers, a review of laser dynamics, classical electromagnetics and lasers, vector and Hilbert spaces and other mathematical foundations, quantum fields and other fundamentals of light, matter-light interaction, and semiconductor emitters and detectors.
Table of Contents:
Ch. 1 Introduction to semiconductor lasers
Ch. 2 Introduction to laser dynamics
Ch. 3 Classical electromagnetics and lasers
Ch. 4 Mathematical foundations
Ch. 5 Fundamentals of dynamics
Ch. 6 Light
Ch. 7 Matter-light interaction
Ch. 8 Semiconductor emitters and detectors
App. 1 Review of integrating factors
App. 2 Rate and continuity equations
App. 3 The group velocity
App. 4 Review of probability theory and statistics
App. 5 The Dirac delta function
App. 6 Coordinate representations of the Schrodinger wave equation
App. 7 Integrals with two time scales
App. 8 The dipole approximation
App. 9 The density operator and the Boltzmann distribution
Download:
CODE
http://rapidshare.com/files/79820936/0824753852.rar
تحياتي
By: Michael A. Parker
ISBN: 0824753852, ISBN-13: 9780824753856
Publisher: CRC - 2005-05-23
Hardcover | 798 Pages
Editorial Review:
Physics of Optoelectronics integrates into one comprehensive treatment introductions to semiconductor lasers and optics, linear algebra and quantum mechanics for optoelectronics, and quantum optics. It builds all the background you need to understand current research and publications of laser engineering-physics, from the basics of lasers and LEDs through the rate equations to the quantum mechanical expressions for gain and optical fields. Topics include an introduction to semiconductor lasers, a review of laser dynamics, classical electromagnetics and lasers, vector and Hilbert spaces and other mathematical foundations, quantum fields and other fundamentals of light, matter-light interaction, and semiconductor emitters and detectors.
Table of Contents:
Ch. 1 Introduction to semiconductor lasers
Ch. 2 Introduction to laser dynamics
Ch. 3 Classical electromagnetics and lasers
Ch. 4 Mathematical foundations
Ch. 5 Fundamentals of dynamics
Ch. 6 Light
Ch. 7 Matter-light interaction
Ch. 8 Semiconductor emitters and detectors
App. 1 Review of integrating factors
App. 2 Rate and continuity equations
App. 3 The group velocity
App. 4 Review of probability theory and statistics
App. 5 The Dirac delta function
App. 6 Coordinate representations of the Schrodinger wave equation
App. 7 Integrals with two time scales
App. 8 The dipole approximation
App. 9 The density operator and the Boltzmann distribution
Download:
CODE
http://rapidshare.com/files/79820936/0824753852.rar
تحياتي