麻豆传媒

Electron tennis plays well for quantum computing

A single electron bouncing between two electrical traps has shown how information could be transferred between different parts of a quantum circuit
[video_player id=鈥滼ZCIu0uS鈥漖Video: How an electron shuttles between quantum dots

A SINGLE electron bouncing between two electrical traps has shown for the first time how information could be transferred between different parts of a quantum circuit. This game of quantum tennis marks an important step towards practical quantum computers.

鈥淲e鈥檙e basically playing ping-pong with a single electron,鈥 says at the University of Cambridge. 鈥淲e can capture single electrons and move them backwards and forwards wherever we like.鈥

Quantum computers can perform hugely powerful calculations by manipulating information in the form of quantum bits, or qubits, which can be both a 0 and a 1 at the same time.

Qubits are fragile, however, and the act of measurement destroys them. So to protect quantum calculations, researchers need a way to transfer qubits from the area where the number crunching happens to a separate spot where they can be measured in isolation.

In a proof of concept experiment, Barnes and his colleagues have done just that. The team created two electron traps called quantum dots on a slab of gallium arsenide. They then used microwave pulses (Nature, ).

This represents a real milestone, Barnes says. 鈥淭he more bounces we get, the more amazing our quantum computer can be.鈥

Topics: Quantum science