Add to ORKGThe design of quarter-wave retarders for the Dense Wave Division Multiplexing using parallel mirrors coated with a single layer is presented. The output light from the device is parallel to the input light and it is displaced by a distance d. The quarter wave retarder overall reflection was in the range of 83%. Error analysis on the design is conducted. The error analysis shows how changes on the angle of incident and the thin film thicknesses effect the design of the retarders
A superachromatic quarter-wave retarder using an arbitrary number of waveplates in a broadband spect...
We designed a broadband quarter wave plate in the visible range using a twisted nematic liquid cryst...
A tilted bilayer membrane, which consists of two thin films of transparent optically isotropic mater...
Abstract: Explicit equations are derived for the design of quarter-wave retarders (QWR) that exploit...
A design procedure is described to determine the thicknesses of single-layer coatings of a given die...
The complex reflection coefficient for the p polarization of a transparent film on an absorbing or t...
Achromatic half-wave and quarter-wave retarders are commonly produced by combining two plates of dif...
Using spatial beam shifting a single dielectric stack can demultiplex multiple WDM channels. We demo...
Wave retarders, including quarter- and half-wave plates, are used in many optical systems for polari...
Monochromatic polarized light is incident at an angle of 45? between the two axes of a double refrin...
The conditions under which light interference in a transparent quarter-wave layer of refractive inde...
The design steps for film—substrate single-reflection retarders are briefly stated and applied to th...
The response ofthe ellipsometric parameters as a function of wavelength has been derived for an opti...
One- and two-dimensional high-spatial-frequency dielectric surface-relief gratings on a Au substrate...
An achromatic infrared (λ = 1.2–4 μm), Si-prism quarter-wave retarder (QWR) is described that uses t...
A superachromatic quarter-wave retarder using an arbitrary number of waveplates in a broadband spect...
We designed a broadband quarter wave plate in the visible range using a twisted nematic liquid cryst...
A tilted bilayer membrane, which consists of two thin films of transparent optically isotropic mater...
Abstract: Explicit equations are derived for the design of quarter-wave retarders (QWR) that exploit...
A design procedure is described to determine the thicknesses of single-layer coatings of a given die...
The complex reflection coefficient for the p polarization of a transparent film on an absorbing or t...
Achromatic half-wave and quarter-wave retarders are commonly produced by combining two plates of dif...
Using spatial beam shifting a single dielectric stack can demultiplex multiple WDM channels. We demo...
Wave retarders, including quarter- and half-wave plates, are used in many optical systems for polari...
Monochromatic polarized light is incident at an angle of 45? between the two axes of a double refrin...
The conditions under which light interference in a transparent quarter-wave layer of refractive inde...
The design steps for film—substrate single-reflection retarders are briefly stated and applied to th...
The response ofthe ellipsometric parameters as a function of wavelength has been derived for an opti...
One- and two-dimensional high-spatial-frequency dielectric surface-relief gratings on a Au substrate...
An achromatic infrared (λ = 1.2–4 μm), Si-prism quarter-wave retarder (QWR) is described that uses t...
A superachromatic quarter-wave retarder using an arbitrary number of waveplates in a broadband spect...
We designed a broadband quarter wave plate in the visible range using a twisted nematic liquid cryst...
A tilted bilayer membrane, which consists of two thin films of transparent optically isotropic mater...