In the world of the very small, quantum dots (QDs) can behave like artificial atoms, able to emit and absorb photons at discrete frequencies based on an individual dot’s energy levels. Like water drops on a waxed car, QDs can spontaneously form as tiny islands on a semiconductor substrate during epitaxial growth. Such dots interact strongly with lattice vibrations and can be greatly influenced by surfaces and the adjacent wetting layer. Researchers at the University of California, Santa Barbara, found a surprising benefit of those interactions when they buried some indium arsenide QDs in a photonic-crystal membrane—a thin sheet of gallium arsenide having a regular array of drilled air holes—that was missing a few holes, as shown in the electron micrograph. Only a few dots are in the defect area and yet they act as a gain medium to generate coherent laser light. How do they do it? The defect...
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1 June 2006
June 01 2006
Citation
Stephen G. Benka; Minimalist laser in a photonic crystal. Physics Today 1 June 2006; 59 (6): 21. https://doi.org/10.1063/1.4797382
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