Reducing quantum-regime dielectric loss of silicon nitride for superconducting quantum circuits


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The loss of amorphous hydrogenated silicon nitride (a-SiN$_{x}$:H) is measured at 30 mK and 5 GHz using a superconducting LC resonator down to energies where a single-photon is stored, and analyzed with an independent two-level system (TLS) defect model. Each a-SiN$_{x}$:H film was deposited with different concentrations of hydrogen impurities. We find that quantum-regime dielectric loss tangent $tandelta_{0}$ in a-SiN$_{x}$:H is strongly correlated with N-H impurities, including NH$_{2}$. By slightly reducing $x$ we are able to reduce $tandelta_0$ by approximately a factor of 50, where the best films show $tandelta_0$ $simeq$ 3 $times$ 10$^{-5}$.

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