The challenge with traditional quantum dots – tiny structures often called “artificial atoms” – is that getting them to emit just two photons at a time is like trying to balance two marbles on a needle. Now, a team of researchers from Beijing has found an innovative way that delivers exceptionally strong two-photon efficiency.
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Under pulsed excitation conditions – the process of applying a brief, intense force or impulse to a structure – their new emitter can achieve 98.3 per cent of emitted photons appearing in paired form, with a generation efficiency of 29.9 per cent. Such results represent the current “international best-in-class” of its kind, according to its lead researcher.
The breakthrough, unveiled this week in Nature Materials, comes from a team at the Beijing Academy of Quantum Information Sciences led by chief scientist Yuan Zhiliang, in collaboration with researchers from the Chinese Academy of Sciences’ Institute of Semiconductors.
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Ding Fei, a scientist from Leibniz University in Germany, wrote in a research briefing in the same journal that he was “truly impressed by the result shown here”.
