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Playing ping-pong with electrons

Scientists have shown an amazing degree of control over a fundamental aspect of an electronic circuit by showing how electrons move from one place to another.

Researchers from Cambridge University’s Cavendish Laboratory have moved an individual electron along a wire, batting it back and forth over sixty times, rather like a ball in table tennis.

The research findings, published on 22 September in the journal Nature, may have applications in quantum computing, transferring a quantum ‘bit’ between processor and memory, for example.



Pulse animation still image   (credit: Chris Fox)

Imagine you are at a party and you want to get to the other side of a crowded room to talk to someone. As you walk you have to weave around people who are walking, dancing or just standing in the way. You may also have to stop and greet friends along the way and by the time you reach the person you wanted to talk to you have forgotten what you were going to say. Wouldn’t it be nice to be lifted up above the crowd, and pushed directly to your destination?

In a similar way, electrons carrying a current along a wire do not go directly from one end to the other but instead follow a complicated zigzag path. This is a problem if the electron is carrying information, as it tends to ‘forget’ it, or, more scientifically, the quantum state loses coherence.

In this work, the team showed a single electron can be trapped in a small well, or quantum dot, just inside the surface of a piece of GaAs. A channel leads to another, empty, dot 4 microns away. The channel is higher in energy than the surrounding electrons. A very short burst of sound (just a few billionths of a second long) is then sent along the surface, past the dot.

The accompanying wave of electrical potential picks up the electron, which then surfs along the channel to the other dot, where it is captured. A burst of sound sent from the other direction returns the electron to the starting dot where the process can be repeated. The electron goes back and forth like a ping-pong ball. Rallies of up to 60 shots have been achieved before anything goes wrong.

“The movement of electrons by our ‘surface acoustic wave’ can also be likened to peristalsis in the oesophagus, where food is propelled from the mouth to the stomach by a wave of muscle contraction,” explains Rob McNeil, who did most of the work, helped by Masaya Kataoka, both at the Cavendish Laboratory.

“This is an enabling technology for quantum computers,” Chris Ford, team leader of the research from the Semiconductor Physics Group in Cavendish, said. “There is a lot of work going on worldwide to make this new type of computer, which may solve certain complex problems much faster than classical computers. However, little effort has yet been put into connecting up different components, such as processor and memory,” he continued.

“Although our experiments do not yet show that electrons ‘remember’ their quantum state, this is likely to be the case. This would make the method of transfer a candidate for moving quantum bits of information around a quantum circuit, in a quantum computer. Indeed, our theorist, Crispin Barnes, proposed using this mechanism to make a whole quantum computer a long time ago, and this is an important step towards that goal,” he concluded.

More details of this development can be found at http://www.cam.ac.uk/research/news/scientists-play-ping-pong-with-single-electrons/
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