Optical Properties of Semiconductor Nanocrystals [ electronic resource ] / by S. V. Gaponenko.
By: Gaponenko, S. V.
Material type: TextSeries: Cambridge Studies in Modern Optics (23). Publisher: Cambridge: Cambridge University Press , 2009ISBN: 9780511524141 (e-book ).Subject(s): Physics And Astronomy | Engineering and Electronic | Optoelectronic Devices and Nanotechnology | Optoelectronics and PhotonicsGenre/Form: Electronic booksDDC classification: 537.6226 Online resources: https://doi.org/10.1017/CBO9780511524141 View to click Summary: Low-dimensional semiconductor structures, often referred to as nanocrystals or quantum dots, exhibit fascinating behavior and have a multitude of potential applications, especially in the field of communications. This book examines in detail the optical properties of these structures, giving full coverage of theoretical and experimental results, and discusses their technological applications. The author begins by setting out the basic physics of electron states in crystals (adopting a 'cluster-to-crystal' approach), and goes on to discuss the growth of nanocrystals, absorption and emission of light by nanocrystals, optical nonlinearities, interface effects, and photonic crystals. He illustrates the physical principles with references to actual devices such as novel light-emitters and optical switches.Item type | Current location | Call number | Status | Date due | Barcode |
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E-Book | WWW | 537.6226 GAP/O (Browse shelf) | Available | EB114 |
Low-dimensional semiconductor structures, often referred to as nanocrystals or quantum dots, exhibit fascinating behavior and have a multitude of potential applications, especially in the field of communications. This book examines in detail the optical properties of these structures, giving full coverage of theoretical and experimental results, and discusses their technological applications. The author begins by setting out the basic physics of electron states in crystals (adopting a 'cluster-to-crystal' approach), and goes on to discuss the growth of nanocrystals, absorption and emission of light by nanocrystals, optical nonlinearities, interface effects, and photonic crystals. He illustrates the physical principles with references to actual devices such as novel light-emitters and optical switches.
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