使用电流偏置频率可调谐谐振器的自旋回波消隐
Spin-Echo Silencing Using a Current-Biased Frequency-Tunable Resonator.
作者信息
Ranjan V, Wen Y, Keyser A K V, Kubatkin S E, Danilov A V, Lindström T, Bertet P, de Graaf S E
机构信息
National Physical Laboratory, Teddington TW11 0LW, United Kingdom.
Université Paris-Saclay, CEA, CNRS, SPEC, 91191 Gif-sur-Yvette Cedex, France.
出版信息
Phys Rev Lett. 2022 Oct 28;129(18):180504. doi: 10.1103/PhysRevLett.129.180504.
The ability to control microwave emission from a spin ensemble is a requirement of several quantum memory protocols. Here, we demonstrate such ability by using a resonator whose frequency can be rapidly tuned with a bias current. We store excitations in an ensemble of rare-earth ions and suppress on demand the echo emission ("echo silencing") by two methods: (1) detuning the resonator during the spin rephasing, and (2) subjecting spins to magnetic field gradients generated by the bias current itself. We also show that spin coherence is preserved during silencing.
控制自旋系综的微波发射能力是几种量子存储协议的一项要求。在此,我们通过使用一种其频率可通过偏置电流快速调谐的谐振器来展示这种能力。我们将激发存储在稀土离子系综中,并通过两种方法按需抑制回波发射(“回波消隐”):(1)在自旋重聚相期间使谐振器失谐,以及(2)使自旋受到由偏置电流本身产生的磁场梯度作用。我们还表明在消隐过程中自旋相干性得以保留。
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