Title :
Role of Geometry on the Color of Flux Noise in dc SQUIDs
Author :
Wellstood, F.C. ; Urbina, C. ; Clarke, John
Author_Institution :
Dept. of Phys., Univ. of Maryland, College Park, MD, USA
fDate :
6/1/2011 12:00:00 AM
Abstract :
We examine the behavior of low frequency flux noise measured in ten Nb-NbOx-Pbln dc SQUIDs in the temperature range 1 K to 20 mK. As previously reported, the flux noise power spectrum SΦ(f) typically scales with frequency as A/fα. Remark ably, the excess noise power A at 1 Hz increases as the temperature is decreased below about 0.7 K, saturating to a value around (10 μΦα)2/Hz below about 0.2 K. Here we report on the dependence of both the magnitude A and the slope a on the size and linewidth of the SQUID loops. In particular, at the lowest temperatures we find that a declines to values as low as 0.5 in the smallest devices, while a is in the range 0.9-1 for the largest devices.
Keywords :
1/f noise; SQUIDs; lead compounds; niobium compounds; noise measurement; superconducting device noise; 1/f noise; Nb-NbOx-PbIn; dc SQUIDs; flux noise power spectrum; low frequency flux noise measurement; temperature 1 K to 20 mK; Critical current; Geometry; Niobium; Noise; Noise measurement; SQUIDs; Temperature measurement; 1/f noise; Flux noise; SQUIDs; two-level systems;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2010.2093092
