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TECH SPACE
Diamond quantum sensor reveals current flows in next-gen materials
by Staff Writers
Melbourne, Australia (SPX) Apr 27, 2017


Artist's impression of a diamond quantum sensor. Electrons are shown as red spheres, trailed by red threads that reveal their paths through graphene. Image courtesy David A. Broadway and cqc2t.org.

Researchers at the University of Melbourne are the first in the world to image how electrons move in two-dimensional graphene, a boost to the development of next-generation electronics.

Capable of imaging the behaviour of moving electrons in structures only one atom in thickness, the new technique overcomes significant limitations with existing methods for understanding electric currents in devices based on ultra-thin materials.

"Next-generation electronic devices based on ultra-thin materials, including quantum computers, will be especially vulnerable to contain minute cracks and defects that disrupt current flow," said Professor Lloyd Hollenberg, Deputy Director of the Centre for Quantum Computation and Communication Technology (CQC2T) and Thomas Baker Chair at the University of Melbourne.

A team led by Hollenberg used a special quantum probe based on an atomic-sized 'colour centre' found only in diamonds to image the flow of electric currents in graphene. The technique could be used to understand electron behaviour in a variety of new technologies.

"The ability to see how electric currents are affected by these imperfections will allow researchers to improve the reliability and performance of existing and emerging technologies. We are very excited by this result, which enables us to reveal the microscopic behaviour of current in quantum computing devices, graphene and other 2D materials," he said.

"Researchers at CQC2T have made great progress in atomic-scale fabrication of nanoelectronics in silicon for quantum computers. Like graphene sheets, these nanoelectronic structures are essentially one atom thick. The success of our new sensing technique means we have the potential to observe how electrons move in such structures and aid our future understanding of how quantum computers will operate."

In addition to understanding nanoelectronics that control quantum computers, the technique could be used with 2D materials to develop next generation electronics, energy storage (batteries), flexible displays and bio-chemical sensors.

"Our technique is powerful yet relatively simple to implement, which means it could be adopted by researchers and engineers from a wide range of disciplines," said lead author Dr Jean-Philippe Tetienne from CQC2T at the University of Melbourne.

"Using the magnetic field of moving electrons is an old idea in physics, but this is a novel implementation at the microscale with 21st Century applications."

The work was a collaboration between diamond-based quantum sensing and graphene researchers. Their complementary expertise was crucial to overcoming technical issues with combining diamond and graphene.

"No one has been able to see what is happening with electric currents in graphene before," said Nikolai Dontschuk, a graphene researcher at the University of Melbourne School of Physics.

"Building a device that combined graphene with the extremely sensitive nitrogen vacancy colour centre in diamond was challenging, but an important advantage of our approach is that it's non-invasive and robust - we don't disrupt the current by sensing it in this way," he said.

Tetienne explained how the team was able to use diamond to successfully image the current.

"Our method is to shine a green laser on the diamond, and see red light arising from the colour centre's response to an electron's magnetic field," he said.

"By analysing the intensity of the red light, we determine the magnetic field created by the electric current and are able to image it, and literally see the effect of material imperfections."

Research Report

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A plastic-eating caterpillar
Washington DC (SPX) Apr 27, 2017
Generally speaking, plastic is incredibly resistant to breaking down. That's certainly true of the trillion polyethylene plastic bags that people use each and every year. But researchers reporting in Current Biology on April 24 may be on track to find a solution to plastic waste. The key is a caterpillar commonly known as a wax worm. "We have found that the larva of a common insect, Galler ... read more

Related Links
Centre for Quantum Computation and Communication Technology
Space Technology News - Applications and Research


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