Researchers develop new lens manufacturing technique

Researchers develop new lens manufacturing technique
Graduate student Mojtaba Falahati holds a homemade lens. Credit: WSU

Researchers from Washington State University and Ohio State University have developed a low-cost, easy way to make custom lenses that could help manufacturers avoid the expensive molds required for optical manufacturing.

Led by Lei Li, assistant professor in the School of Mechanical and Materials Engineering, and graduate student, Mojtaba Falahati, the researchers developed a liquid mold from droplets that they can manipulate with magnets to create lenses in a variety of shapes and sizes. Their work is featured on the cover of the journal, Applied Physics Letters.

High-quality lenses are increasingly used in everything from cameras, to self-driving cars, and virtually all robotics, but the traditional molding and casting processes used in their manufacturing require sophisticated and expensive metal molds. So, manufacturers are mostly limited to mass producing one kind of lens.

"The molds are precisely finished and are difficult to make," said Li. "It isn't worthwhile to make a mold for low-volume production."

The researchers ran into the problem firsthand as they searched for lenses for their work to develop a portable laboratory reader on a phone.

They first tried to make their own lenses using 3-D printing but found it difficult to control the lens shape. They then came up with the idea of using magnets and the surface tension of liquids to literally create free-flowing molds.

Researchers develop new lens manufacturing technique
Lei Li (left), assistant professor, and graduate student Mojtaba Falahati. Credit: WSU

They placed tiny, magnetic iron particles into liquid droplets and built a device to surround the droplets with magnets. They then poured the plastic material used in lenses over the droplet. As they applied a , the droplet took on a conical lens shape—creating a mold for the plastic lens material. Once they cured the plastic, it hardened and had the same and imaging quality as a commercially purchased lens. The liquid droplet remains separate and can be re-used.

The magnets can be moved to change the magnetic field, the shape of the mold, and the resulting . The researchers also used bigger or smaller to create lenses of varying sizes.

"We brought the concept of interfacial tension to the field of optics by introducing an innovative controllable liquid mold," said Li. "This novel process allowed us to regulate the of a magnetic drop and to create lenses without having to fabricate expensive molds."


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More information: Mojtaba Falahati et al, Fabrication of polymeric lenses using magnetic liquid molds, Applied Physics Letters (2019). DOI: 10.1063/1.5090511
Journal information: Applied Physics Letters

Citation: Researchers develop new lens manufacturing technique (2019, May 20) retrieved 20 September 2019 from https://phys.org/news/2019-05-lens-technique.html
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May 20, 2019
Novel use of magnetic manipulation...

May 20, 2019
Very cool.

Next try these: solid-state, sensitive to everything from radio waves to gamma rays, and the lenses themselves are perfect, because they're encoded in software in the language physicists speak (math). See things an eagle would never dream of, know which rocks really sparkle, and watch muons zip by and light things up from time to time during cosmic ray showers...

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