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Intersubband Transitions In Quantum Structures

Advances in epitaxial growth and nanofabrication technology in the past several years have made it possible to engineer sophisticated semiconductor quantum devices with unprecedented control of their electronic and optical properties. A particularly important class of such devices is based on intersubband transitions, i.e. optical transitions between quantized electronic states in semiconductor heterostructures. Most notably, mid-infrared quantum-well infrared photodetectors (QWIPs) and quantum cascade lasers nowadays offer superior performance for applications such as thermal imaging, spectroscopy, and biochemical sensing, and have recently become commercially available. Intersubband devices also have the potential for a revolutionary impact in the fields of silicon photonics, terahertz sensing, and ultra-high-bandwidth fiber-optic communications, and extensive research is ongoing to fulfill this promise. Joined by an international group of world experts, Paiella describes the basic device physics and applications of intersubband transitions, as well as the more recent and important developments in this exciting area of semiconductor nanotechnology.

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Intersubband Transitions In Quantum Structures

Advances in epitaxial growth and nanofabrication technology in the past several years have made it possible to engineer sophisticated semiconductor quantum devices with unprecedented control of their electronic and optical properties. A particularly important class of such devices is based on intersubband transitions, i.e. optical transitions between quantized electronic states in semiconductor heterostructures. Most notably, mid-infrared quantum-well infrared photodetectors (QWIPs) and quantum cascade lasers nowadays offer superior performance for applications such as thermal imaging, spectroscopy, and biochemical sensing, and have recently become commercially available. Intersubband devices also have the potential for a revolutionary impact in the fields of silicon photonics, terahertz sensing, and ultra-high-bandwidth fiber-optic communications, and extensive research is ongoing to fulfill this promise. Joined by an international group of world experts, Paiella describes the basic device physics and applications of intersubband transitions, as well as the more recent and important developments in this exciting area of semiconductor nanotechnology.

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Intersubband Transitions In Quantum Structures

Intersubband Transitions In Quantum Structures

by Roberto Paiella
Intersubband Transitions In Quantum Structures
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Intersubband Transitions In Quantum Structures

Intersubband Transitions In Quantum Structures

by Roberto Paiella

Overview

Advances in epitaxial growth and nanofabrication technology in the past several years have made it possible to engineer sophisticated semiconductor quantum devices with unprecedented control of their electronic and optical properties. A particularly important class of such devices is based on intersubband transitions, i.e. optical transitions between quantized electronic states in semiconductor heterostructures. Most notably, mid-infrared quantum-well infrared photodetectors (QWIPs) and quantum cascade lasers nowadays offer superior performance for applications such as thermal imaging, spectroscopy, and biochemical sensing, and have recently become commercially available. Intersubband devices also have the potential for a revolutionary impact in the fields of silicon photonics, terahertz sensing, and ultra-high-bandwidth fiber-optic communications, and extensive research is ongoing to fulfill this promise. Joined by an international group of world experts, Paiella describes the basic device physics and applications of intersubband transitions, as well as the more recent and important developments in this exciting area of semiconductor nanotechnology.

Product Details

ISBN-13: 9780071492072
Publisher: McGraw Hill LLC
Publication date: 05/05/2010
Sold by: Barnes & Noble
Format: eBook
Pages: 431
File size: 13 MB
Note: This product may take a few minutes to download.

About the Author

Roberto Paiella, Ph.D., is an Assistant Professor in the Department of Electrical and Computer Engineering at Boston University. He has extensive research experience in photonics and semiconductor device physics, and has designed and developed several novel devices in the areas of all-optical switching, intersubband optoelectronics, photonic integrated circuits, and high-speed diode lasers. Dr. Paiella holds a B.S. in Electrical Engineering from Columbia University and a Ph.D. in Applied Physics from the California Institute of Technology. Prior to joining Boston University, he worked at Bell Laboratories and Lucent Technologies and in the Optoelectronics Division of Agere Systems.

Table of Contents

Chapter 1. Quantum Cascade Lasers: Overview of Basic Principles of Operation and State of the Art C. Sirtori (Université Paris 7 and THALES Research & Technology, France) and R. Teissier (Université Montpellier 2, France) Chapter 2. Terahertz Quantum Cascade Lasers A. Tredicucci (Scuola Normale Superiore, Italy) and R. Köhler (Scuola Normale Superiore, Italy) Chapter 3. High-Speed Operation and Ultrafast Pulse Generation with Quantum Cascade Lasers R. Paiella (Boston University), R. Martini (Stevens Institute of Technology), A. Soibel (Jet Propulsion Laboratory, Caltech), H.C. Liu (National Research Council, Canada), and F. Capasso (Harvard University) Chapter 4. Ultrafast Dynamics of Intersubband Excitations in Quantum Wells and Quantum Cascade StructuresT. Elsaesser (Max Born Institute, Germany) Chapter 5. Optical Nonlinearities in Intersubband Transitions and Quantum Cascade Lasers C. Gmachl (Princeton University), O. Malis (Bell Labs, Lucent Technologies), and A. Belyanin (Texas A&M University) Chapter 6. Raman Injection and Inversionless Intersubband LasersA. Belyanin (Texas A&M University), M. Troccoli (Harvard University), and F. Capasso (Harvard University) Chapter 7. Quantum Well Infrared Photodetector – High Absorption and High Speed Properties, and Two-Photon Response H.C. Liu (National Research Council, Canada) and H. Schneider (Institute of Ion-Beam Physics and Material Research, Germany) Chapter 8. Intersubband Transitions in Quantum DotsP. Bhattacharya (University of Michigan), A.D. Stiff-Roberts (Duke University), X. Su (University of Michigan), S. Chakrabarti (University of Michigan), and C.H. Fischer (MIT Lincoln Lab) Chapter 9. Intersubband Transitions in Si/SiGe Heterojunctions, Quantum Dots and Quantum WellsH. Sigg (Paul Scherrer Institute, Switzerland) Chapter 10. All-Optical Modulation and Switching in the Communication Wavelength Regime Using Intersubband Transitions in InGaAs/AlAsSb HeterostructuresA. Neogi (University of North Texas)
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