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arxiv: 2010.00772 · v1 · pith:SMIVDTSAnew · submitted 2020-10-02 · ❄️ cond-mat.supr-con · hep-ex· nucl-ex· physics.ins-det

Controlling T_c of Iridium Films Using the Proximity Effect

classification ❄️ cond-mat.supr-con hep-exnucl-exphysics.ins-det
keywords filmsfilmir-basedlow-applicationsapproacheffectfabrication
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A superconducting Transition-Edge Sensor (TES) with low-$T_c$ is essential in a high resolution calorimetric detection. With a motivation of developing sensitive calorimeters for applications in cryogenic neutrinoless double beta decay searches, we have been investigating methods to reduce the $T_c$ of an Ir film down to 20 mK. Utilizing the proximity effect between a superconductor and a normal metal, we found two room temperature fabrication recipes of making Ir-based low-$T_c$ films. In the first approach, an Ir film sandwiched between two Au films, a Au/Ir/Au trilayer, has a tunable $T_c$ in the range of 20-100 mK depending on the relative thicknesses. In the second approach, a paramagnetic Pt thin film is used to create Ir/Pt bilayer with a tunable $T_c$ in the same range. We present detailed study of fabrication and characterization of Ir-based low-$T_c$ films, and compare the experimental results to theoretical models. We show that Ir-based films with predictable and reproducible critical temperature can be consistently fabricated for use in large scale detector applications.

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