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Quantum Dot Molecules

  • Book
  • © 2014

Overview

Editors:
  1. Jiang Wu

    1. State Key Laboratory of Electronic Thin, University of Electronic Science and Technology of China, Chengdu, People's Republic of China

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  2. Zhiming M. Wang

    1. State Key Laboratory of Electronic, University of Electronic Science and Technology, Chengdu, People's Republic of China

    View editor publications

    You can also search for this editor in PubMed   Google Scholar

  • Presents the first comprehensive reference focused solely on quantum dot molecules
  • Provides state-of-the-art coverage of novel technologies and techniques
  • Connects fundamental physical properties with device design
  • Features contributions from worldwide leaders in the field
  • Includes supplementary material: sn.pub/extras

Part of the book series: Lecture Notes in Nanoscale Science and Technology (LNNST, volume 14)

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Table of contents (11 chapters)

  1. Front Matter

    Pages i-xi
    Download chapter PDF

  2. Fabrication of Semiconductor Quantum Dot Molecules: Droplet Epitaxy and Local Oxidation Nanolithography Techniques

    • Pablo Alonso-González, Javier Martín-Sánchez
    Pages 1-28

  3. InP Ring-Shaped Quantum Dot Molecules by Droplet Epitaxy

    • Wipakorn Jevasuwan, Somchai Ratanathammapan, Somsak Panyakeow
    Pages 29-49

  4. Optical Properties of Lateral InGaAs Quantum Dot Molecules Single- and Bi-Layers

    • Songphol Kanjanachuchai, Nirat Patanasemakul, Natapong Thongkamkoon, Nitidet Thudsalingkarnsakul, Naparat Siripitakchai, Pornchai Changmoang et al.
    Pages 51-75

  5. Formation Principles and Exciton Relaxation in Semiconductor Quantum Dot–Dye Nanoassemblies

    • Christian von Borczyskowski, Eduard Zenkevich
    Pages 77-148

  6. Size-dependent Electronic and Polarization Properties of Multi-Layer InAs Quantum Dot Molecules

    • Muhammad Usman
    Pages 149-175

  7. Analysis of Reduced Built-In Polarization Fields and Electronic Structure of InGaN/GaN Quantum Dot Molecules

    • Stefan Schulz, Eoin P. O’Reilly
    Pages 177-208

  8. Interference Single Electron Transistors Based on Quantum Dot Molecules

    • Andrea Donarini, Milena Grifoni
    Pages 209-258

  9. Quantum Interference Effects on the Electronic Transmission Through Quantum Dot Molecules

    • Rodolfo H. Romero, Daniel A. Lovey, Diego Sebastian Acosta Coden, Sergio S. Gomez
    Pages 259-280

  10. Phonon-Assisted Processes and Spontaneous Emission in Double Quantum Dots

    • Paweł Karwat, Krzysztof Gawarecki, Katarzyna Roszak, Anna Sitek, Paweł Machnikowski
    Pages 281-331

  11. Förster Resonant Energy Transfer Signatures in Optically Driven Quantum Dot Molecules

    • Juan E. Rolon, Sergio E. Ulloa
    Pages 333-353

  12. Stark Effect and the Measurement of Electric Fields with Quantum Dot Molecules

    • Eric Stinaff, Kushal Wijesundara, Mauricio Garrido, Swati Ramanathan
    Pages 355-373

  13. Back Matter

    Pages 375-377
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Keywords

About this book

A quantum dot molecule (QDM) is composed of two or more closely spaced quantum dots or “artificial atoms.” In recent years, QDMs have received much attention as an emerging new artificial quantum system. The interesting and unique coupling and energy transfer processes between the “artificial atoms” could substantially extend the range of possible applications of quantum nanostructures. This book reviews recent advances in the exciting and rapidly growing field of QDMs via contributions from some of the most prominent researchers in this scientific community. The book explores many interesting topics such as the epitaxial growth of QDMs, spectroscopic characterization, and QDM transistors, and bridges between the fundamental physics of novel materials and device applications for future information technology. Both theoretical and experimental approaches are considered. Quantum Dot Molecules can be recommended for electrical engineering and materials science department courses on the science and design of advanced and future electronic and optoelectronic devices.

Editors and Affiliations

  • State Key Laboratory of Electronic Thin, University of Electronic Science and Technology of China, Chengdu, People's Republic of China

    Jiang Wu

  • State Key Laboratory of Electronic, University of Electronic Science and Technology, Chengdu, People's Republic of China

    Zhiming M. Wang

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