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The first broadband high-power quantum dot superluminsecent diodes (QD-SLDs) to have been intermixed to have a significant blue-shift in their operating wavelength have been demonstrated by researchers at the University of Sheffield in the UK. This result could open the door to high bandwidth active devices comprising regions of different wavelengths that could meet the demands of, for example, optical imaging of the eye and other skin tissue.

Inspec keywords: light emitting diodes; light sources; medical image processing; semiconductor lasers; luminescence; semiconductor quantum dots

Other keywords: blue-shift; biomedical imaging; ultra-broadband light source; high bandwidth active device; controlled intermixed superluminescent diode; broadband high-power quantum dot superluminsecent diode; wavelength

Subjects: Biomedical measurement and imaging; Medical and biomedical uses of fields, radiations, and radioactivity; health physics; Light emitting diodes; Other luminescence spectra and radiative recombination (condensed matter); Optical, image and video signal processing; Lasing action in semiconductors; Semiconductor lasers; Display technology; Patient diagnostic methods and instrumentation

http://iet.metastore.ingenta.com/content/journals/10.1049/el.2010.9009
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This article has the following associated article(s):
High performance intermixed p-doped quantum dot superluminescent diodes at 1.2 µm