Breakthrough Technology to Improve Cyber
Security
The
University of Sydney , March 22, 2016 -- Interdisciplinary
global photonics research is set to revolutionise our ability to exchange data
securely.
An international team of researchers has made a breakthrough in generating single photons – the single quanta of light particles – as carriers of quantum information in security systems. The findings are set to revolutionise cybersecurity, along with advancing quantum computing, which can search large databases exponentially faster. Work will be continued through the Australian Institute for Nanoscale Science and Technology, which launches at the
“This is the holy grail for
quantum communications and quantum computing – the ability to generate photons
on demand.”
-- Professor Benjamin Eggleton.With enough computing effort most contemporary security systems will be broken. But a research team at the
The collaboration involving physicists at the Centre for Ultrahigh bandwidth Devices for Optical Systems (CUDOS), an ARC Centre of Excellence headquartered in the
The team’s work resolved a key issue holding back the development of password exchange which can only be broken by violating the laws of physics. Photons are generated in a pair, and detecting one indicates the existence of the other. This allows scientists to manage the timing of photon events so that they always arrive at the time they are expected.
Lead author Dr Chunle Xiong, from the
Among a number of quantum systems, optical systems offer particularly easy access to quantum effects. Over the past few decades, many building blocks for optical quantum information processing have developed quickly,” Dr Xiong said.
“Implementing optical quantum technologies has now come down to one fundamental challenge: having indistinguishable single photons on-demand,” he said.
“This research has demonstrated that the odds of being able to generate a single photon can be doubled by using a relatively simple technique – and this technique can be scaled up to ultimately generate single photons with 100% probability.”
CUDOS director and co-author of the paper, Professor Benjamin Eggleton, said the interdisciplinary research was set to revolutionise our ability to exchange data securely – along with advancing quantum computing, which can search large databases exponentially faster.
“The ability to generate single photons, which form the backbone of technology used in laptops and the internet, will drive the development of local secure communications systems – for safeguarding defence and intelligence networks, the financial security of corporations and governments and bolstering personal electronic privacy, like shopping online,” said Professor Eggleton.
“Our demonstration leverages the CUDOS Photonic chip that we have been developing over the last decade, which means this new technology is also compact and can be manufactured with existing infrastructure.”
The research will be furthered at the new Sydney Nanoscience Hub - part of the Australian Institute of Nanoscale Science and Technology, which launches next month.
Co-author and Professor of Computer Systems, Philip Leong, who developed the high-speed electronics crucial for the advance, said he was particularly excited by the prospect of further exploring the marriage of photonics and electronics to develop new architectures for quantum problems.
“This advance addresses the fundamental problem of single photon generation – promises to revolutionise research in the area,” Professor Leong said.
The group – which is now exploring advanced designs and expects real-world applications within three to five years – has involved research with
http://sydney.edu.au/news-opinion/news/2016/03/22/breakthrough-technology-to-improve-cyber-security-.html
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