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Pré-Publication, Document De Travail Année : 2021

Microwave optomechanical measurement of non-metallized SiN strings at mK temperatures

Résumé

The mechanical properties of amorphous materials (glasses) at low temperatures are dominated by effects of low energy excitations that are thought to be atomic-scale tunneling two level systems (TTLS). In nanometer-scale glass samples, the temperature dependence of the sound speed and dissipation is modified relative to that of bulk glass samples. In addition to this size effect, the usual presence of a polycrystalline metal in nanomechanical resonators leads to a further departure from the well-studied behavior of insulating bulk glass. We report a dual chip optomechanical measurement technique used to characterize non-metallized amorphous SiN strings at low temperatures. A harp consisting of SiN strings of width 350 nm and lengths 40 to 80 $\mu$m is coupled to an Al superconducting microwave cavity on a separate chip. The strings are driven dielectrically and their motion is detected via its modulation of the microwave resonance frequency.

Dates et versions

hal-03363453 , version 1 (04-10-2021)

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Citer

Sumit Kumar, Yannick Klass, Baptiste Alperin, Srisaran Venkatachalam, Xin Zhou, et al.. Microwave optomechanical measurement of non-metallized SiN strings at mK temperatures. 2021. ⟨hal-03363453⟩
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