The new UC technology provides the following benefits: Enhanced oxidation rates; Controllability of the aperture shape and size; Enhanced effectiveness of the resulting optical and/or current apertures.
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Enhances resolution and exceeds the Abbe diffraction limit along all three (x, y, and z) dimensions. Enhances and increases contrast while increasing resolution. Applies to any fluorescence microscope, confocal or nonconfocal, at a negligible cost. Eliminates the need for expensive and difficult op.....
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UC San Diego researchers have developed nanostructured semiconductor phosphor materials and a method and device for producing light by injecting electrons into these new phosphors. The new device can potentially achieve a breakthrough efficiency of about 90 percent. In the invention, light results f.....
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Nanolasers are integral for future photonic circuits, by enabling a range of optical applications from on-chip optical communication to imaging, spectroscopy, sensing, and lithography. In addition, by magnifying the quantum properties of the field, they also provide useful tools for in-depth investi.....
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The eMCBF spatial filter is robust to a wide range of correlations, SNRs, source locations, and various source temporal dynamics. Using a three-core MCBF filter, UC San Diego researchers further demonstrate how additional sources of interference can be accounted for once source localization is p.....
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