Open AccessHigh-throughput fabrication of right-angle prism mirrors with selective metalization by two-step 3D printing and computer vision alignment
Author(s) -
Andrea Bertoncini,
Gheorghe Cojoc,
Jochen Guck,
Carlo Liberale
Publication year - 2020
Publication title -
king abdullah university of science and technology repository (king abdullah university of science and technology)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.1117/12.2544147
Subject(s) - lithography , prism , holography , optics , realization (probability) , etching (microfabrication) , fabrication , materials science , throughput , photolithography , optoelectronics , computer science , physics , nanotechnology , telecommunications , alternative medicine , pathology , wireless , statistics , mathematics , layer (electronics) , medicine
We propose a dual step µ-3D printing (two-photon lithography) strategy, which is the 3D version of the classic lithography etching-mask strategy, to achieve selective gold metallization for the realization of reflective micro-optics. We apply this strategy to obtain right-angle prism micro-mirrors used to create dynamic counterpropagating optical traps for biological samples in a holographic optical trapping setup with a single low-NA objective. We print the prisms on standard glass coverslips to create integrated optical trapping chips. We show the automatization of alignment between prisms and masks by a computer vision software.
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