Noise mitigation in quantum systems reduces communications error

February 11, 2021 // By Jean-Pierre Joosting
Noise mitigation in quantum systems reduces communications error
Technique allows immediate noise mitigation in current long-distance communications, and promises potential quantum computation and thermodynamics.

Both quantum computation and quantum communication are strongly deteriorated by the ease with which a quantum superposition state can be destroyed, or entanglement between two or more quantum particles can be lost. This means that there is a long way to go before quantum devices can be used to create marketable quantum computers. The primary approach to overcome these limitations is through the use of so-called quantum error-correcting codes. This, however, requires an amount of resources exceeding that which can be currently achieved in a controlled way. While, in the long run, error correction is likely to become an integral part of future quantum devices, a complementary approach is to implement noise mitigation techniques – that reduce or eliminate the cumulative effect of uncorrected errors without relying on so many additional resources.

Recently, a team of researchers at Hong-Kong University proposed that an overall reduction in noise could be achieved by directing the particle along a quantum superposition of paths through regions of noise in opposite order. In particular, while classically a particle can only travel along one path, in quantum mechanics it can move along multiple paths at once. If one uses this property to send the particle along two quantum paths, one can, for instance, lead the particle across the noisy regions in opposite order simultaneously. This effect had been demonstrated experimentally by two independent research investigations.

These results suggested that, to achieve this noise reduction, it is necessary to place the noisy transmission lines in a quantum superposition of opposite orders. Shortly after this, research groups in Vienna and in Grenoble realised that this effect can also be achieved via simpler configurations, which can even completely eliminate the noise between the two parties.

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