Room temperature reactive sputtering deposition of titanium nitride with high sheet kinetic inductance

Abstract

Superconducting thin films with high intrinsic kinetic inductance Lk are important for high-sensitivity detectors, enabling strong coupling in hybrid quantum systems, and enhancing nonlinearities in quantum devices. We report the room-temperature reactive sputtering of titanium nitride thin films with a critical temperature Tc of 3.8K and a thickness of 27nm. Fabricated into resonators, these films exhibit a sheet kinetic inductance Lk, of 394~pH/, as inferred from resonant frequency measurements. %from this film and measure quality factors of 4× 104; these quality factors are likely limited by the low resistivity wafer. X-ray diffraction analysis confirms the formation of stoichiometric TiN, with no residual unreacted titanium. The films also demonstrate a characteristic sheet resistivity of 475~/, yielding an impedance an order of magnitude higher than conventional 50~ resonators. This property could enhance microwave single photon coupling strength by an order of magnitude, offering transformative potential for hybrid quantum systems and quantum sensing. Furthermore, the high Lk enables Kerr nonlinearities comparable to state of the art quantum devices. Combined with its relatively high Tc, this thin film presents a promising platform for superconducting devices, including amplifiers and qubits operating at higher temperatures.