Laser lithographic fabrication and characterization of a spherical artificial compound eye
D Radtke, J Duparré, UD Zeitner, A Tünnermann - Optics express, 2007 - opg.optica.org
D Radtke, J Duparré, UD Zeitner, A Tünnermann
Optics express, 2007•opg.optica.orgA spherical artificial compound eye which is comprised of an imaging microlens array and a
pinhole array in the focal plane serving as receptor matrix is fabricated. The arrays are
patterned on separate spherical bulk lenses by means of a special modified laser
lithography system which is capable of generating structures with low shape deviation on
curved surfaces. Design considerations of the imaging system are presented as well as the
characterization of the comprising elements on curved surfaces, with special attention on the …
pinhole array in the focal plane serving as receptor matrix is fabricated. The arrays are
patterned on separate spherical bulk lenses by means of a special modified laser
lithography system which is capable of generating structures with low shape deviation on
curved surfaces. Design considerations of the imaging system are presented as well as the
characterization of the comprising elements on curved surfaces, with special attention on the …
A spherical artificial compound eye which is comprised of an imaging microlens array and a pinhole array in the focal plane serving as receptor matrix is fabricated. The arrays are patterned on separate spherical bulk lenses by means of a special modified laser lithography system which is capable of generating structures with low shape deviation on curved surfaces. Design considerations of the imaging system are presented as well as the characterization of the comprising elements on curved surfaces, with special attention on the homogeneity over the array. The assembled system is the first spherical compound eye able to capture images. It is evaluated by analyzing resolution and cross-talk between the single channels.
opg.optica.org
以上显示的是最相近的搜索结果。 查看全部搜索结果