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Suppression of low-frequency charge noise in superconducting resonators by surface spin desorption

机译：通过表面自旋解吸抑制超导谐振器中的低频电荷噪声

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摘要

Noise and decoherence due to spurious two-level systems located at material interfaces are long-standing issues for solid-state quantum devices. Efforts to mitigate the effects of two-level systems have been hampered by a lack of knowledge about their chemical and physical nature. Here, by combining dielectric loss, frequency noise and on-chip electron spin resonance measurements in superconducting resonators, we demonstrate that desorption of surface spins is accompanied by an almost tenfold reduction in the charge-induced frequency noise in the resonators. These measurements provide experimental evidence that simultaneously reveals the chemical signatures of adsorbed magnetic moments and highlights their role in generating charge noise in solid-state quantum devices.

机译：由于位于材料界面的伪二级系统造成的噪声和退相干是固态量子器件的长期存在的问题。缺乏对两级系统的化学和物理性质的了解已阻碍了减轻两级系统影响的努力。在这里，通过结合介导损耗，频率噪声和超导谐振器中的片上电子自旋共振测量结果，我们证明了表面自旋的解吸伴随着谐振器中电荷感应的频率噪声几乎降低了十倍。这些测量提供了实验证据，可同时揭示吸附的磁矩的化学特征，并突出显示它们在固态量子器件中产生电荷噪声的作用。

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期刊名称 Nature Communications
作者
S. E. de Graaf; L. Faoro; J. Burnett; A. A. Adamyan; A. Ya. Tzalenchuk; S. E. Kubatkin; T. Lindström; A. V. Danilov;
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年(卷),期 -1(9),-1
年度 -1
页码 1143
总页数 6
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专利

1. Suppression of low-frequency charge noise in superconducting resonators by surface spin desorption [J] . S. E. de Graaf, L. Faoro, J. Burnett, Nature Communications . 2018,第1期

机译：通过表面自旋解吸抑制超导谐振器中的低频电荷噪声
2. Toward a theory for low-frequency spin dynamics in plane copper oxide superconductors: Crossover from localized spins to weak coupling charge carriers with doping [J] . Larionov I.A. Journal of Physics. Condensed Matter . 2011,第24期

机译：面向平面氧化铜超导体中低频自旋动力学的理论：掺杂后从局部自旋到弱耦合电荷载流子的交叉
3. Suppression of low-frequency charge noise in gates-defined GaAs quantum dots [J] . Jie You, Hai-Ou Li, Ke Wang, Applied Physics Letters . 2015,第23期

机译：栅极定义的GaAs量子点中的低频电荷噪声的抑制
4. Simulation of noise processes in thickness-shear resonators caused by multilayer adsorption and desorption of surface molecules [C] . Yong, Y.-K. Frequency Control, 1990., Proceedings of the 44th Annual Symposium on . 1990

机译：表面分子的多层吸附和解吸引起的厚度剪切谐振器噪声过程的模拟
5. Low-frequency 1/F noise: Low temperature measurements and effect on superconducting qubit dephasing. [D] . Crane, Trevis Atherton. 2005

机译：低频1 / F噪声：低温测量和对超导量子比特移相的影响。
6. Comparisons between the 35 mm Quadrature Surface Resonator at 300 K and the 40 mm High-Temperature Superconducting Surface Resonator at 77 K in a 3T MRI Imager [O] . Manli Song, Jyh-Horng Chen, Ji Chen, -1

机译：在3T MRI成像仪中在300 K下的35 mm正交表面谐振器与在77 K下的40 mm高温超导表面谐振器之间的比较
7. Suppression of 1/f noise in solid state quantum devices by surface spin desorption [O] . de Graaf, S. E., Faoro, L., Burnett, J., 2017

机译：通过表面自旋抑制固态量子器件中的1 / f噪声解吸

Suppression of low-frequency charge noise in superconducting resonators by surface spin desorption

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