Using ‘miracle material’ graphene in telecommunications could dramatically make the internet a hundred times faster, a new study has found.
Researchers from the Universities of Bath and Exeter have demonstrated for the first time incredibly short optical response rates using graphene, which could pave the way for a revolution in telecommunications.
Every day, large amounts of information is transmitted and processed through optoelectronic devices such as optical fibres, photodetectors and lasers. Signals are sent by photons at infrared wavelengths and processed using optical switches, which convert signals into a series of light pulses.
Ordinarily optical switches respond at the rate of a few picoseconds, around a trillionth of a second. Through this study, physicists have observed the response rate of an optical switch using ‘few layer graphene’ to be around one hundred femto seconds, nearly a hundred times quicker than current materials.
Graphene is just one atom thick, but remarkably strong.
Scientists have suggested that it would take an elephant, balanced on a pencil to break through a single sheet.
Already dubbed a miracle material due to its strength, lightness, flexibility, conductivity and low cost, it could now enter the market to dramatically improve telecommunications, researchers said.
“We’ve seen an ultrafast optical response rate, using ’few-layer graphene’, which has exciting applications for the development of high speed optoelectronic components based on graphene,” lead researcher Dr. Enrico Da Como said.
“This fast response is in the infrared part of the electromagnetic spectrum, where many applications in telecommunications, security and also medicine are currently developing and affecting our society,” said Mr. Da Como.
“The more we find out about grapheme, the more remarkable its properties seem to be. This research shows that it also has unique optical properties which could find important new applications,” Co-Director of the Centre for Graphene Science at Bath, Professor Simon Bending added.
In the long term, this research could also lead to the development of quantum cascade lasers based on graphene.
Quantum cascade lasers are semiconductor lasers used in pollution monitoring, security and spectroscopy. Few-layer graphene could emerge as a unique platform for this interesting application.
The study was published in Physical Review Letters.