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Controllable effects of quantum fluctuations on spin free-induction decay at room temperature

Fluctuations of local fields cause decoherence of quantum objects. It is generally believed that at high temperatures, thermal noises are much stronger than quantum fluctuations unless the thermal effects are suppressed by certain techniques such as spin echo. Here we report the discovery of strong quantum-fluctuation effects of nuclear spin baths on free-induction decay of single electron spins in solids at room temperature. We find that the competition between the quantum and thermal fluctuations is controllable by an external magnetic field. These findings are based on Ramsey interference measurement of single nitrogen-vacancy center spins in diamond and numerical simulation of the decoherence, which are in excellent agreement.

preprint2011arXivOpen access
Xin-Yu PanGang-Qin LiuDong-Qi LiuZhan-Feng JiangNan ZhaoRen-Bao Liu
cond-mat.mes-hallquant-ph
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Open access6 authors2 topics
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Xin-Yu PanGang-Qin LiuDong-Qi LiuZhan-Feng JiangNan ZhaoRen-Bao Liu

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