A semi-empirical model for two-level system noise in superconducting microresonators

Jiansong Gao; Miguel Daal; John M. Martinis; Benjamin A. Mazin; Peter K. Day; Henry G. Leduc; Anastasios Vayonakis; Bernard Sadoulet; Jonas Zmuidzinas

doi:10.1063/1.2937855

A semi-empirical model for two-level system noise in superconducting microresonators

Superconductivity 2009-11-13 v1

Authors: Jiansong Gao , Miguel Daal , John M. Martinis , Benjamin A. Mazin , Peter K. Day , Henry G. Leduc , Anastasios Vayonakis , Bernard Sadoulet , Jonas Zmuidzinas

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Abstract

We present measurements of the low--temperature excess frequency noise of four niobium superconducting coplanar waveguide microresonators, with center strip widths $s_r$ ranging from 3 $\mu$ m to 20 $\mu$ m. For a fixed internal power, we find that the frequency noise decreases rapidly with increasing center strip width, scaling as $1/s_r^{1.6}$ . We show that this geometrical scaling is readily explained by a simple semi-empirical model which assumes a surface distribution of independent two-level system fluctuators. These results allow the resonator geometry to be optimized for minimum noise.

Keywords

noise microwave resonators high quality factor resonators

Cite

@article{arxiv.0804.0467,
  title  = {A semi-empirical model for two-level system noise in superconducting microresonators},
  author = {Jiansong Gao and Miguel Daal and John M. Martinis and Benjamin A. Mazin and Peter K. Day and Henry G. Leduc and Anastasios Vayonakis and Bernard Sadoulet and Jonas Zmuidzinas},
  journal= {arXiv preprint arXiv:0804.0467},
  year   = {2009}
}

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A semi-empirical model for two-level system noise in superconducting microresonators

Abstract

Keywords

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