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3D printed optics with nanometer scale surface roughness

3D printed optics with nanometer scale surface roughness
3D printed optics with nanometer scale surface roughness
Complex optical devices including aspherical focusing mirrors, solar concentrator arrays, and immersion lenses were 3D printed using commercial technology and experimentally demonstrated by evaluating surface roughness and shape. The as-printed surfaces had surface roughness on the order of tens of microns. To improve this unacceptable surface quality for creating optics, a polymer smoothing technique was developed. Atomic force microscopy and optical profilometry showed that the smoothing technique reduced the surface roughness to a few nanometers, consistent with the requirements of high-quality optics, while tests of optical functionality demonstrated that the overall shapes were maintained so that near theoretically predicted operation was achieved. The optical surface smoothing technique is a promising approach towards using 3D printing as a flexible tool for prototyping and fabrication of miniaturized high-quality optics.
2055-7434
Vaidya, N.
aa741ed5-08f6-4d6c-8719-cdf727cd9e4b
Solgaard, O.
d31d9834-955a-4eae-b456-477e9af61a4b
Vaidya, N.
aa741ed5-08f6-4d6c-8719-cdf727cd9e4b
Solgaard, O.
d31d9834-955a-4eae-b456-477e9af61a4b

Vaidya, N. and Solgaard, O. (2018) 3D printed optics with nanometer scale surface roughness. Microsystems & Nanoengineering, 2018 (4), [18]. (doi:10.1038/s41378-018-0015-4).

Record type: Article

Abstract

Complex optical devices including aspherical focusing mirrors, solar concentrator arrays, and immersion lenses were 3D printed using commercial technology and experimentally demonstrated by evaluating surface roughness and shape. The as-printed surfaces had surface roughness on the order of tens of microns. To improve this unacceptable surface quality for creating optics, a polymer smoothing technique was developed. Atomic force microscopy and optical profilometry showed that the smoothing technique reduced the surface roughness to a few nanometers, consistent with the requirements of high-quality optics, while tests of optical functionality demonstrated that the overall shapes were maintained so that near theoretically predicted operation was achieved. The optical surface smoothing technique is a promising approach towards using 3D printing as a flexible tool for prototyping and fabrication of miniaturized high-quality optics.

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More information

Published date: 16 July 2018
Additional Information: Copyright © 2018, The Author(s)

Identifiers

Local EPrints ID: 470883
URI: http://eprints.soton.ac.uk/id/eprint/470883
DOI: doi:10.1038/s41378-018-0015-4
ISSN: 2055-7434
PURE UUID: 535c9334-c88a-406b-97dd-21adea091880
ORCID for N. Vaidya: ORCID iD orcid.org/0000-0003-1843-7545

Catalogue record

Date deposited: 20 Oct 2022 16:45
Last modified: 17 Mar 2024 04:10

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Contributors

Author: N. Vaidya ORCID iD
Author: O. Solgaard

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