Description: Nonlinear and Nonequilibrium Dynamics of Quantum-dot Optoelectronic Devices, Hardcover by Lingnau, Benjamin, ISBN 3319258036, ISBN-13 9783319258034, Like New Used, Free shipping in the US This thesis sheds light on the unique dynamics of optoelectronic devices based on semiconductor quantum-dots. The complex scattering processes involved in filling the optically active quantum-dot states and the presence of charge-carrier nonequilibrium conditions are identified as sources for the distinct dynamical behavior of quantum-dot based devices. Comprehensive theoretical models, which allow for an accurate description of such devices, are presented and applied to recent experimental observations. The low sensitivity of quantum-dot lasers to optical perturbations is directly attributed to their unique charge-carrier dynamics and amplitude-phase-coupling, which is found not to be accurately described by conventional approaches. The potential of quantum-dot semiconductor optical amplifiers for novel applications such as simultaneous multi-state amplification, ultra-wide wavelength conversion, and coherent pulse shaping is investigated. The scattering mechanisms and the unique electronic structure of semiconductor quantum-dots are found to make such devices prime candidates for the implementation of next-generation optoelectronic applications, which could significantly simplify optical telecommunication networks and open up novel high-speed data transmission schemes.
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Book Title: Nonlinear and Nonequilibrium Dynamics of Quantum-dot Optoelectron
Number of Pages: Xiii, 193 Pages
Language: English
Publication Name: Nonlinear and Nonequilibrium Dynamics of Quantum-Dot Optoelectronic Devices
Publisher: Springer International Publishing A&G
Subject: Lasers & Photonics, Physics / Optics & Light, Electronics / Optoelectronics, Materials Science / Electronic Materials
Publication Year: 2015
Item Weight: 19.5 Oz
Type: Textbook
Author: Benjamin Lingnau
Subject Area: Technology & Engineering, Science
Item Length: 9.3 in
Item Width: 6.1 in
Series: Springer Theses Ser.
Format: Hardcover