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One-second coherence for a single electron spin coupled to a multi-qubit nuclear-spin environment.


ABSTRACT: Single electron spins coupled to multiple nuclear spins provide promising multi-qubit registers for quantum sensing and quantum networks. The obtainable level of control is determined by how well the electron spin can be selectively coupled to, and decoupled from, the surrounding nuclear spins. Here we realize a coherence time exceeding a second for a single nitrogen-vacancy electron spin through decoupling sequences tailored to its microscopic nuclear-spin environment. First, we use the electron spin to probe the environment, which is accurately described by seven individual and six pairs of coupled carbon-13 spins. We develop initialization, control and readout of the carbon-13 pairs in order to directly reveal their atomic structure. We then exploit this knowledge to store quantum states in the electron spin for over a second by carefully avoiding unwanted interactions. These results provide a proof-of-principle for quantum sensing of complex multi-spin systems and an opportunity for multi-qubit quantum registers with long coherence times.

SUBMITTER: Abobeih MH 

PROVIDER: S-EPMC6026183 | biostudies-literature | 2018 Jun

REPOSITORIES: biostudies-literature

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One-second coherence for a single electron spin coupled to a multi-qubit nuclear-spin environment.

Abobeih M H MH   Cramer J J   Bakker M A MA   Kalb N N   Markham M M   Twitchen D J DJ   Taminiau T H TH  

Nature communications 20180629 1


Single electron spins coupled to multiple nuclear spins provide promising multi-qubit registers for quantum sensing and quantum networks. The obtainable level of control is determined by how well the electron spin can be selectively coupled to, and decoupled from, the surrounding nuclear spins. Here we realize a coherence time exceeding a second for a single nitrogen-vacancy electron spin through decoupling sequences tailored to its microscopic nuclear-spin environment. First, we use the electro  ...[more]

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