Deiker, S.
, Doriese, W.
, Hilton, G.
, Irwin, K.
, Rippard, W.
, Ullom, J.
, Vale, L.
, Ruggiero, S.
, Williams, A.
and Young, B.
(2004),
Superconducting transition edge sensor using dilute AlMn alloys, Applied Physics Letters, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=31652
(Accessed April 25, 2024)
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Superconducting transition edge sensor using dilute AlMn alloys
Published
Author(s)
, , , , , , , Steve T. Ruggiero, , B. Young
Abstract
We have fabricated a bolometer using a transition-edge sensor (TES) made of Al doped with Mn to suppress the superconducting critical temperature !Tc" of Al from #1 K to #100 mK. The resulting detector exhibits low-frequency noise consistent with theory, with a noise-equivalent power of 7.5!10−18 W/ $Hz. The addition of Mn impurities did not significantly increase the heat capacity of the TES. In addition, the detector is surprisingly insensitive to applied magnetic fields. The use of AlMn alloy films in arrays of TES detectors has advantages in simplicity of fabrication when compared to traditional bilayer fabrication techniques.Citation
Applied Physics Letters
Volume
85
Issue
11
Pub Type
Journals
Download Paper
Keywords
Aluminum, bolometer, Cryogenic sensors, manganese, superconducting transition temperature, Transition Edge Sensor, x-rays
Citation
Created July 6, 2004, Updated February 19, 2017