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Book Cover
Author Hayrapetyan, David, author

Title Fundamental absorption of semiconductor quantum dots / by David Hayrapetyan, Hayk A. Sarkisyan, and Eduard M. Kazaryan
Published Society of Photo-optical Instrumentation Engineers
Bellingham, Washington : SPIE Press, 2018
Online access available from:
ProQuest Ebook Central    View Resource Record  


Description 1 online resource (v, 71 pages)
Series Spotlight ; Volume SL43
Contents Preface -- 1. Introduction -- 2. Fundamental absorption in quantum dots: 2.1. Spherical quantum dot; 2.2. Cylindrical quantum dot; 2.3. Conical quantum dot; 2.4. Ellipsoidal quantum dot; 2.5. Lens-shaped quantum dot; 2.6. Spherical layered quantum dot -- 3. Effects of magnetic field on the absorption spectra: 3.1. Interband transitions in the absence of a magnetic field; 3.2. Effect of magnetic field on the interband transitions; 3.3. Normal modes approach -- 4. Effects of electric field on the absorption spectra: 4.1. Energy spectrum and wave function; 4.2. Direct interband absorption -- 5. Conclusion -- References
Summary This Spotlight describes the process of fundamental absorption in a variety of quantum dot (QD) geometries, such as spherical, cylindrical, ellipsoidal, lens-shaped, conical, and spherical layered, including in the presence of external fields. Other topics include the effect of exciton effects on the interband absorption coefficients and the application of QD ensembles in QD-LED devices. The mathematics involved is presented with as much detail as possible, and readers need only be familiar with semiconductor physics and quantum mechanics
Notes Description based on print version record
Subject Absorption
Quantum dots
Form Electronic book
Author Kazaryan, Eduard M., author
Sarkisyan, Hayk A., author
ISBN 1510623019