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Tc Suppression in Superconducting Films for use in Transition Edge Sensors

Published

Author(s)

Steven Deiker, Gene C. Hilton, Kent D. Irwin, William Rippard, Steve Ruggiero, Leila R. Vale, B. A. Young

Abstract

Transition edge sensor (TES) microcalorimeters have proved their value as photon detectors in several wavelength regimes. The central elecement of a TES is a superconducting film with a transition temperature designed to be at a specific temperature, usually 100 - 500 mK. These films are typically fabricated by depositing bilayers of multilayers of superconducting and normal metals (e.g. molybdenum and copper) whose relative thicknesses have been engineered to produce the desired superconducting transition temperature (Tc) through the proximity effect. Although these fabrication methods have been widely applied, bilayer and multilayer deposition is often difficult, and care must be taken in controlling thicknesses and surface interface quality. An alternative method is to dope the superconducting film with dilute magnetic impurities in order to suppress its Tc to the desired temperature. This technique has been used successfully in tungsten, but tungsten films are not well-suited to all TES applications. WE have thus undertaken a project to investigate Tc suppression in molybdenum and aluminum films. We present our results from impurity doping using iron and manganese in these films.
Citation
IEEE Transactions on Applied Superconductivity
Volume
13
Issue
2

Keywords

ion implantation, microcalorimeters, transition edge sensors, T<sub>c</sub> suppression

Citation

Deiker, S. , Hilton, G. , Irwin, K. , Rippard, W. , Ruggiero, S. , Vale, L. and Young, B. (2003), T<sub>c</sub> Suppression in Superconducting Films for use in Transition Edge Sensors, IEEE Transactions on Applied Superconductivity (Accessed March 4, 2024)
Created May 31, 2003, Updated October 12, 2021