'A mosaic-like pattern': This new Swiss-Army optical chip replaces bulky hardware to deliver better, faster broadband
Date:
Sat, 18 Apr 2026 22:05:00 +0000
Description:
A mosaic metasurface design integrates eleven optical functions, claiming
that controlled disorder can enhance performance and reduce space
requirements in optical systems.
FULL STORY ======================================================================Copy link Facebook X Whatsapp Reddit Pinterest Flipboard Threads Email Share this article 0 Join the conversation Follow us Add us as a preferred source on Google Newsletter Tech Radar Pro Are you a pro? Subscribe to our newsletter Sign up to the TechRadar Pro newsletter to get all the top news, opinion, features and guidance your business needs to succeed! Become a Member in Seconds Unlock instant access to exclusive member features. Contact me with news and offers from other Future brands Receive email from us on behalf of our trusted partners or sponsors By submitting your information you agree to the Terms & Conditions and Privacy Policy and are aged 16 or over. You are
now subscribed Your newsletter sign-up was successful Join the club Get full access to premium articles, exclusive features and a growing list of member rewards. Explore An account already exists for this email address, please log in. Subscribe to our newsletter Controlled disorder enables multiple optical functions within a single compact device Mosaic metasurfaces reduce space requirements for complex light manipulation tasks Eleven optical functions operate simultaneously on one engineered surface Researchers at Monash University have flipped a long-held assumption in optics by showing how controlled disorder can make optical devices more powerful.
The team developed a new class of "disordered mosaic metasurfaces" capable of performing multiple optical functions simultaneously within a single device. Instead of carefully arranging structures in perfect order, the researchers scattered them in a mosaic-like pattern. Article continues below You may like Nanometer-thick magnet produced at room temperature using lasers could one
day produce better HDDs, faster non-silicon processors We built a technology which uses light to control light: Finchetto CEO on ditching electronics to make networks faster How silicon photonics could reshape AI, computing, and data infrastructure How a mosaic design packs more functions into the same space "Disorder is usually something engineers try to eliminate," said Dr. Haoran Ren. "But we found that if you design it carefully, disorder can actually enhance what these devices can do."
Traditional metasurfaces face a major limitation: each device typically performs just one function.
This new approach uses a disordered "mosaic" layout of tiny light-controlling elements known as meta pixels.
The researchers showed it could drastically reduce the area needed for any
one function, freeing up space for additional capabilities. Are you a pro? Subscribe to our newsletter Sign up to the TechRadar Pro newsletter to get
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"Think of it like a city," said Dr. Chi Li. "Traditional designs give one function the entire space. What we've done is redesign the 'urban planning'
so multiple functions can coexist efficiently."
As a proof of concept, the team built a new type of optical lens that works across a broad range of wavelengths from 1200 to 1400nm.
Its device integrates 11 distinct optical functions into a single surface, enabling it to focus light consistently across different colors without the usual distortion. What to read next World internet speed record of
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The team also demonstrated the ability to capture detailed information about the polarization of light in a single measurement.
Previously, this kind of analysis required multiple measurements or specialized equipment - compact, multifunctional optical devices could transform telecommunications infrastructure, making it faster and more efficient.
Biomedical diagnostics, environmental sensing, and space-based imaging would also benefit from smaller, more capable optical systems.
The platform gives researchers a scalable way to integrate many optical functions into a single compact device.
By showing that disorder can outperform order, the research challenges a foundational assumption across photonics.
"Sometimes the most powerful innovations come from questioning what we think we know," said Dr. Ren.
The study was conducted at the Monash Nanophotonics Laboratory, with additional contributions from the University of Exeter and the University of the Witwatersrand.
Whether this laboratory breakthrough can scale to commercial manufacturing remains an open question.
Still, the conceptual shift from perfect order to engineered disorder opens a new direction for photonics that could eventually deliver faster, better broadband.
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Link to news story:
https://www.techradar.com/pro/a-mosaic-like-pattern-this-new-swiss-army-optica l-chip-replaces-bulky-hardware-to-deliver-better-faster-broadband
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