Noise analysis and optical response of microwave kinetic inductance detectors with an optical stack - AstroParticule et Cosmologie
Article Dans Une Revue Superconductor Science and Technology Année : 2024

Noise analysis and optical response of microwave kinetic inductance detectors with an optical stack

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Abstract We report on the experimental investigation of optical coupling for superconducting microresonators known as microwave kinetic inductance detectors (MKIDs) in the visible and near-infrared bands. MKIDs are photon-counting, time and energy-resolving detectors that still suffer from a poor quantum efficiency. To improve this efficiency, we propose to add a superconducting reflective layer below the absorbing part of the detector separated by a transparent Al 2 O 3 layer with a quarter-wavelength thickness optimized around a single wavelength λ = 405 nm. We have first fabricated samples patterned from stoichiometric TiN ( T c ∼ 4 K), one with the full optical stack, one without for reference and one with a partial optical stack in order to characterize the noise influence of each layer individually. We observe that the full optical stack geometry has the most impact on the resonator’s noise and quality factors. A second design was fabricated to characterize the optical response to short pulses of the optical stack and we show from both the frequential noise and optical response that a strong signature of TLS is still present in the optical stack sample. We have finally obtained single-photon response with the optical stack using a more sensitive tri-layer TiN/Ti/TiN absorber ( T c ∼ 1.3 K) for which a maximum energy resolving power of R = E / Δ E ∼ 1.3 was achieved using 405 nm laser pulses at 225 mK. The quality factors of both the reference and optical stack samples are similar but the frequency noise is still a tenfold higher for the optical stack sample which degrades the energy-resolving power of the detector.
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hal-04755501 , version 1 (27-10-2024)

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Paul Nicaise, Jie Hu, Christine Chaumont, Piercarlo Bonifacio, Michel Piat, et al.. Noise analysis and optical response of microwave kinetic inductance detectors with an optical stack. Superconductor Science and Technology, 2024, 37 (8), pp.085014. ⟨10.1088/1361-6668/ad5b25⟩. ⟨hal-04755501⟩
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