@inproceedings{23531, author = {Kenneth C Johnson}, title = {Chromatic Dispersion Compensation in a Fresnel Lens by Means of a Diffraction Grating}, abstract = {
A Fresnel lens imaging performance can be seriously impaired by chromatic dispersion which typically doubles the diameter of the focused sun image in a solar concentrator. This problem can be alleviated by means of a molded diffraction grating whose diffraction-induced dispersion offsets and substantially cancels the lens intrinsic refractive index dispersion. The grating lines would comprise a second tier of small-scale, Fresnel-type facets superimposed on the lens facets, with a typical grating facet height of about 40 micro-inches and a facet width ranging from about 1 milli-inch at the edge of the lens to around 5 or 10 milli-inches near the center. In its primary intended application the grating would function in a core daylighting system to improve the optical performance of a collector which focuses direct sunlight into fiber optic couplers. For this application chromatic dispersion would be reduced by an order of magnitude with only a 2% loss in optical efficiency.
}, year = {1989}, journal = {SPIE Optical Materials Technology for Energy Efficiency and Solar Conversion Conf. XIII}, month = {08/1989}, address = {San Diego, CA}, language = {eng}, }