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arxiv: 2107.10255 · v1 · pith:YQPEVPUD · submitted 2021-07-19 · physics.optics

3D printed hybrid refractive/diffractive achromat and apochromat for the visible wavelength range

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classification physics.optics
keywords aberrationsdiffractiverefractivechromaticachromatapochromatcreatedifferent
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Three-dimensional (3D) direct laser writing is a powerful technology to create nano- and microscopic optical devices. While the design freedom of this technology offers the possibility to reduce different monochromatic aberrations, reducing chromatic aberrations is often neglected. In this Letter, we successfully demonstrate the combination of refractive and diffractive surfaces to create a refractive/diffractive achromat and show, to the best of our knowledge, the first refractive/diffractive apochromat by using DOEs and simultaneously combining two different photoresists, namely IP-S and IP-n162. These combinations drastically reduce chromatic aberrations in 3D printed micro-optics for the visible wavelength range. The optical properties, as well as the substantial reduction of chromatic aberrations, are characterized, and we outline the benefits of 3D direct laser written achromats and apochromats for micro-optics.

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