Multiple-aperture optical design for micro-level cameras using 3D-printing method

“…The most common techniques, such as SLA and FDM, produce components with surface roughness that disperse too much light to be effective optical couplers. The technique that does not suffer this problem of resolution is two-photon polymerization, and there are many examples of 2PP being used to print optical components, like multi-lens objectives and free-form coupling elements (Figure a) that will have many applications for analytical sensing. − The excessive time scale of 2PP manufacturing, ∼100 days for 1 mm 3 , means that it is limited to microstructured components, however, and may have difficulty becoming a widespread technique for academic laboratories who want to prototype macro-scale instrumentation.…”

Advances in Optical Sensing and Bioanalysis Enabled by 3D Printing

“…The most common techniques, such as SLA and FDM, produce components with surface roughness that disperse too much light to be effective optical couplers. The technique that does not suffer this problem of resolution is two-photon polymerization, and there are many examples of 2PP being used to print optical components, like multi-lens objectives and free-form coupling elements (Figure a) that will have many applications for analytical sensing. − The excessive time scale of 2PP manufacturing, ∼100 days for 1 mm 3 , means that it is limited to microstructured components, however, and may have difficulty becoming a widespread technique for academic laboratories who want to prototype macro-scale instrumentation.…”

Advances in Optical Sensing and Bioanalysis Enabled by 3D Printing