structured illumination造句

The second mode of operation is the structured illumination microscopy mode ( SIM ).
The Vertico SMI microscope achieves structured illumination by using one or two opposing interfering laser beams along the axis.
Examples include single photon interferometry through two objective lenses to give extremely accurate depth information about a single fluorophore and three-dimensional structured illumination microscopy.
LCoS was initially developed for projection televisions but is now used for wavelength selective switching, structured illumination, near-eye displays and optical pulse shaping.
Examples for this microscopy are shown under section Structured illumination microscopy ( SIM ), Images of cell nuclei and mitotic stages recorded with 3D-SIM Microscopy.
It's difficult to find structured illumination in a sentence. 用structured illumination造句挺难的

SMI can be combined with other super resolution technologies, for instance with 3D LIMON or LSI-TIRF as a total internal reflection interferometer with laterally structured illumination.
Nikon s new N-SIM microscopy system can produce two times conventional resolution by combining Structured Illumination Microscopy technology licensed from UCSF based on Nikon s Eclipse Ti research inverted microscope.
In the future it is hoped that super-resolution microscopy such as Stimulated Emission Depletion ( STED ) or various forms of structured illumination microscopy may overcome the problems imposed by the diffraction limit.
Although typically only a one-dimensional, or sometimes a two-dimensional section is used, the three-dimensional optical transfer function can improve the understanding of microscopes such as the structured illumination microscope.
Among sub-diffraction limited techniques, structured illumination holds the distinction of being one of the only methods that can work with simple reflectance without the need for special dyes or fluorescence and at very long working distances.
The Vertico-SMI microscope was developed by a team led by Christoph Cremer, Professor of Applied Optics and Information Processing at Heidelberg University and is based on the combination of light optical techniques of localization microscopy ( SPDM, " spectral precision distance microscopy " ) and structured illumination ( SMI, " spatially modulated illumination " ).