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Showing 1–5 of 5 results

Advanced filters: Author: Bill Corcoran Clear advanced filters

Ultra-dense optical data transmission over standard fibre with a single chip source

Microcombs provide many opportunities for integration in optical communications systems. Here, the authors implement a soliton crystal microcomb as a tool to demonstrate more than 44 Tb/s communications with high spectral efficiency.

Bill Corcoran
Mengxi Tan
David J. Moss
ResearchOpen Access22 May 2020
Nature Communications

Volume: 11, P: 1-7
Mapping the human genetic architecture of COVID-19

A global network of researchers was formed to investigate the role of human genetics in SARS-CoV-2 infection and COVID-19 severity; this paper reports 13 genome-wide significant loci and potentially actionable mechanisms in response to infection.

Mari E. K. Niemi
Juha Karjalainen
Chloe Donohue
ResearchOpen Access08 Jul 2021
Nature

Volume: 600, P: 472-477
11 TOPS photonic convolutional accelerator for optical neural networks

An optical vector convolutional accelerator operating at more than ten trillion operations per second is used to create an optical convolutional neural network that can successfully recognize handwritten digit images with 88 per cent accuracy.

Xingyuan Xu
Mengxi Tan
David J. Moss
Research06 Jan 2021
Nature

Volume: 589, P: 44-51
Optical microcombs for ultrahigh-bandwidth communications

This Review summarizes the recent progress in ultrahigh-bandwidth optical-fibre communications based on integrated optical frequency comb technologies, or integrated Kerr microcombs, highlighting the challenges and opportunities ahead.

Bill Corcoran
Arnan Mitchell
David J. Moss
Reviews07 May 2025
Nature Photonics

Volume: 19, P: 451-462
Photonic signal processor based on a Kerr microcomb for real-time video image processing

Signal processing is key to communications and video image processing for astronomy, medical diagnosis, autonomous driving, big data and AI. Menxi Tan and colleagues report a photonic processor operating at 17Tb/s for ultrafast robotic vision and machine learning.

Mengxi Tan
Xingyuan Xu
David J. Moss
ResearchOpen Access20 Dec 2023
Communications Engineering

Volume: 2, P: 1-13