Add to ORKGWe describe an imaging scatterometer allowing hemispherical reflectance measurements as a function of the angle of incidence. The heart of the scatterometer is an ellipsoidal reflector, which compresses the hemispherical reflection into a cone-shaped beam that can be imaged by a normal optical system. The instrument's performance is illustrated by measurements of the scattering profiles of the blue-iridescent dorsal wing scales of the nymphalid Morpho aega and the matte-green ventral wing scales of the lycaenid Callophrys rubi. (C) 2008 Optical Society of America</p
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...