Wired for sound: A third wave emerges in integrated circuits

(University of Sydney) A research renaissance into chip-based control of light-sound interactions could transform our 5G networks, satellite communications and defence industries. These interactions, known as Brillouin scattering, are set to underpin new designs in microchips and push our theoretical understanding of fundamental science, write Professor Ben Eggleton and colleagues in Nature Photonics.

Wired for sound: A third wave emerges in integrated circuits

Optical fibres are our global nervous system, transporting terabytes of data across the planet in the blink of an eye.

Mon 19 Aug 19 from Phys.org

Wired for sound: A third wave emerges in integrated circuits, Mon 19 Aug 19 from Eurekalert

Researchers turn off backscattering, aim to improve optical data transmission

Engineers at the University of Illinois have found a way to redirect misfit light waves to reduce energy loss during optical data transmission. In a study, researchers exploited an interaction ...

Mon 12 Aug 19 from Phys.org

Researchers turn off backscattering, aim to improve optical data transmission, Mon 12 Aug 19 from Eurekalert

Researchers cut optical backscatter to boost data transmission

Process exploits interaction of light and sound waves to suppress the scattering by material defects.

Fri 16 Aug 19 from optics.org

Turning off backscattering to improve optical data transmission

Engineers have found a way to redirect misfit light waves to reduce energy loss during optical data transmission. In a study, researchers exploited an interaction between light and sound waves ...

Mon 12 Aug 19 from ScienceDaily

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