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- Q1059326 subject Q4103352.
- Q1059326 subject Q8266666.
- Q1059326 abstract "In optics, a supercontinuum is formed when a collection of nonlinear processes act together upon a pump beam in order to cause severe spectral broadening of the original pump beam, for example using a microstructured optical fiber. The result is a smooth spectral continuum (see figure 1 for a typical example). There is no definitive explanation of how much broadening constitutes a supercontinuum; however researchers have published work claiming as little as 60 nm of broadening as a supercontinuum. There is also no agreement on the spectral flatness required to define the bandwidth of the source, with authors using anything from 5 dB to 40 dB or more. In addition the term supercontinuum itself did not gain widespread acceptance until this century, with many authors using alternative phrases to describe their continua during the 1970s, 1980s and 1990s.During the last decade, the development of supercontinua sources has emerged as an interesting and active research field. This is largely due to new technological developments, which have allowed more controlled and accessible generation of supercontinua. This renewed research has created a variety of new light sources which are finding applications in a diverse range of fields, including optical coherence tomography, frequency metrology, fluorescence lifetime imaging, optical communications, gas sensing and many others. The application of these sources has created a feedback loop whereby the scientists utilising the supercontinua are demanding better customisable continua to suit their particular applications. This has driven researchers to develop novel methods to produce these continua and to develop theories to understand their formation and aid future development. As a result, rapid progress has been made in developing these sources since 2000.".
- Q1059326 thumbnail Optics-SupercontinuumSpectrum.png?width=300.
- Q1059326 wikiPageExternalLink p101111_s1.
- Q1059326 wikiPageExternalLink supercontinuum_generation.html.
- Q1059326 wikiPageWikiLink Q11456.
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- Q1059326 wikiPageWikiLink Q183467.
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- Q1059326 wikiPageWikiLink Q191807.
- Q1059326 wikiPageWikiLink Q27304.
- Q1059326 wikiPageWikiLink Q38867.
- Q1059326 wikiPageWikiLink Q4103352.
- Q1059326 wikiPageWikiLink Q466824.
- Q1059326 wikiPageWikiLink Q483666.
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- Q1059326 wikiPageWikiLink Q756033.
- Q1059326 wikiPageWikiLink Q82244.
- Q1059326 wikiPageWikiLink Q8266666.
- Q1059326 wikiPageWikiLink Q838801.
- Q1059326 wikiPageWikiLink Q899552.
- Q1059326 wikiPageWikiLink Q910990.
- Q1059326 wikiPageWikiLink Q916258.
- Q1059326 comment "In optics, a supercontinuum is formed when a collection of nonlinear processes act together upon a pump beam in order to cause severe spectral broadening of the original pump beam, for example using a microstructured optical fiber. The result is a smooth spectral continuum (see figure 1 for a typical example).".
- Q1059326 label "Supercontinuum".
- Q1059326 depiction Optics-SupercontinuumSpectrum.png.