Quantum dots and quantum wires

Kerry J. Vahala; Harry Atwater; Richard C. Flagan; Pete Sercel; Charles Tsai; John Lebens; Winston Saunders

Conference on Lasers and Electro-Optics
OSA Technical Digest (Optica Publishing Group, 1991),
paper JThC1

Quantum dots and quantum wires

Kerry J. Vahala, Harry Atwater, Richard C. Flagan, Pete Sercel, Charles Tsai, John Lebens, and Winston Saunders

Conference on Lasers and Electro-Optics 1991

Baltimore, Maryland United States
12–17 May 1991
ISBN: 1-55752-189-1

From the session
Joint Symposium on Vertical Cavity and Quantum-Confined Semiconductor Lasers (JThC)

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K. J. Vahala, H. Atwater, R. C. Flagan, P. Sercel, C. Tsai, J. Lebens, and W. Saunders, "Quantum dots and quantum wires," in Conference on Lasers and Electro-Optics, J. Bufton, A. Glass, T. Hsu, and W. Krupke, eds., Vol. 10 of OSA Technical Digest (Optica Publishing Group, 1991), paper JThC1.

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Abstract

There is increasing interest in the potential application of quantum dots and quantum wires to various solid state devices. Applications include enhancing the performance of existing devices (e.g., semiconductor lasers based on quantum dot active layers), the creation of materials with exotic optical nonlinearities, the development of novel processor architectures based on cellular automata, and new concepts concerning the generation of synthetic dopants. In the quantum well hierarchy that has emerged over the last decade (i.e., quantum wells, wires and dots), quantum dots are the extreme quasi zero-dimensional case. They are, in a sense, large man-made atoms (100–200 Å in diameter). An ideal quantum wire, on the other hand, is the electrical analog of a single mode optical fiber.

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