Topic 6 Properties of clouds particles, e.g. optical, morphology, density
... – Particle imager problems e.g. (2D vs. 3D, depth of focus,..) – Satellite retrievals (non spherical particles issues) ...
... – Particle imager problems e.g. (2D vs. 3D, depth of focus,..) – Satellite retrievals (non spherical particles issues) ...
High‐transmission dielectric metasurface with 2π phase control at
... intrinsically high losses of metals at optical frequencies lead to low performance efficiencies for plasmonic metasurfaces, especially in transmission [17, 18]. This initiated significant work in developing dielectric analogs of metasurfaces, since many dielectric materials have very low absorption ...
... intrinsically high losses of metals at optical frequencies lead to low performance efficiencies for plasmonic metasurfaces, especially in transmission [17, 18]. This initiated significant work in developing dielectric analogs of metasurfaces, since many dielectric materials have very low absorption ...
Angle-independent structural colors of silicon
... properties in side-view. A TM electromagnetic wave is normal incident on the 1-D grating, and a periodic phase-matched Floquet (Bloch) boundary condition is used. Results from a commercial available solver (Comsol 4.2, COMSOL Inc., Burlington, Massachusetts) can be seen in Fig. 2. It seems that a co ...
... properties in side-view. A TM electromagnetic wave is normal incident on the 1-D grating, and a periodic phase-matched Floquet (Bloch) boundary condition is used. Results from a commercial available solver (Comsol 4.2, COMSOL Inc., Burlington, Massachusetts) can be seen in Fig. 2. It seems that a co ...
Measuring cellular structure at submicrometer scale with light
... ponent perpendicular to the direction of polarization of the incident light . All such parallel rays that leave the sample with pass through the same point, P, identical scattering angles in the focal plane FP2. Thus, light rays scattered from all parts are mapped onto a fixed of the sample at a fix ...
... ponent perpendicular to the direction of polarization of the incident light . All such parallel rays that leave the sample with pass through the same point, P, identical scattering angles in the focal plane FP2. Thus, light rays scattered from all parts are mapped onto a fixed of the sample at a fix ...
219_cha.pdf
... surface contouring methods interferometry, light scattering, speckle photography, moiré, Talbot interferometry and holography etc. have been developed [1-9]. Optical surface contouring method using interferometry fulfills the condition of non-contacting and whole field measurement of surface shape w ...
... surface contouring methods interferometry, light scattering, speckle photography, moiré, Talbot interferometry and holography etc. have been developed [1-9]. Optical surface contouring method using interferometry fulfills the condition of non-contacting and whole field measurement of surface shape w ...
Cisco ONS 15454 Release 2.1.0 Features
... the compensating fiber can be several kilometers and the reel can be inserted at any point in the link, at the receiver or at the transmitter Note: Although the Total Dispersion Is Close to Zero, This Technique Can Also Be Employed to Manage FWM and CPM Since at Every Point We Have Dispersion Which ...
... the compensating fiber can be several kilometers and the reel can be inserted at any point in the link, at the receiver or at the transmitter Note: Although the Total Dispersion Is Close to Zero, This Technique Can Also Be Employed to Manage FWM and CPM Since at Every Point We Have Dispersion Which ...
Dispersion staining
The optical properties of all liquid and solid materials change as a function of the wavelength of light used to measure them. This change as a function of wavelength is called the dispersion of the optical properties. The graph created by plotting the optical property of interest by the wavelength at which it is measured is called a dispersion curve.The dispersion staining is an analytical technique used in light microscopy that takes advantage of the differences in the dispersion curve of the refractive index of an unknown material relative to a standard material with a known dispersion curve to identify or characterize that unknown material. These differences become manifest as a color when the two dispersion curves intersect for some visible wavelength. This is an optical staining technique and requires no stains or dyes to produce the color. Its primary use today is in the conformation of the presence of asbestos in construction materials but it has many other applications.