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Laser Li-Fi Could Blast 100 Gigabits per Second

Coming laser lighting would free Li-Fi from current data rate constraints

2 min read
Laser Li-Fi Could Blast 100 Gigabits per Second
Photo: University of Edinburgh

Struggling with spotty Wi-Fi? Li-Fi might be the answer. The technology uses LED-based room lighting instead of radio waves to transmit data. But one of the leading Li-Fi proponents is already looking beyond LEDs to laser-based lighting, which he says could bring a tenfold increase in data rates.

“The problem is that LEDs, although they are more energy efficient than incandescent light, they still can be improved in terms of their light output,” says Harald Haas, chair of mobile communications at the University of Edinburgh and a member of the Ultra-Parallel Visible Light Communications Project. “We strongly believe the next wave of energy efficient lighting will be based on laser diodes.”

Li-Fi encodes data on the light coming from LEDs by modulating their output. The rapid flickering is unnoticeable to the human eye, but a receiver on a desktop computer or mobile device can read the signal, and even send one back to a transceiver on the ceiling of a room, providing two-way communication. But many LEDs use a phosphor coating to convert blue light to white, and that limits how fast the devices can be modulated, holding down data rates.

In research published in Optics Express, Haas and his team showed that replacing the LEDs with off-the-shelf laser diodes vastly improved the situation. Lasers, with their high energy and optical efficiency, can be modulated at 10 times the rate of LEDs. And rather than using phosphors, laser lighting would create white light by mixing the output of several lasers operating at different wavelengths. That means each wavelength can be used as a separate data channel, the same sort of wavelength division multiplexing that lets optical telecommunications carry so much data. The Edinburgh group’s experiment used nine laser diodes.

While LED-based Li-Fi could reach data rates of 10 Gb/s, an improvement over the 7 Gb/s maximum of Wi-Fi, using lasers could boost that speed to “easily beyond 100 Gb/s,” Haas says.

At the moment, such a setup is expensive, but Haas believes mass production will bring down the cost of the lasers and move them into lighting applications. BMW already sells laser-based headlights on its i8 model. “That is only the start of a technology move as laser diodes get more inexpensive,” Haas says.

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Two Startups Are Bringing Fiber to the Processor

Avicena’s blue microLEDs are the dark horse in a race with Ayar Labs’ laser-based system

5 min read
Diffuse blue light shines from a patterned surface through a ring. A blue cable leads away from it.

Avicena’s microLED chiplets could one day link all the CPUs in a computer cluster together.


If a CPU in Seoul sends a byte of data to a processor in Prague, the information covers most of the distance as light, zipping along with no resistance. But put both those processors on the same motherboard, and they’ll need to communicate over energy-sapping copper, which slow the communication speeds possible within computers. Two Silicon Valley startups, Avicena and Ayar Labs, are doing something about that longstanding limit. If they succeed in their attempts to finally bring optical fiber all the way to the processor, it might not just accelerate computing—it might also remake it.

Both companies are developing fiber-connected chiplets, small chips meant to share a high-bandwidth connection with CPUs and other data-hungry silicon in a shared package. They are each ramping up production in 2023, though it may be a couple of years before we see a computer on the market with either product.

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