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The analysis has been carried out on a high performance computer, by choosing parameters typical of low critical temperature SQUIDs. In particular the dependence of both the magnetic nux noise Sm and the flux to voltage transfer function Vm on the bins current and the normalized SQUID inductance Shave been investigated Thermal noise effects, including contributions of both junction and damping resistance, have been introduced in the calculations. The results show that an increase of the asymmetry leads to higher V-Phi and lower S-Phi,values. This suggests to use asymmetric dc-SQUIDs to improve the device performance for both small and large inductance values.

[object Object]

Asymmetric dc-SQUIDs: Magnetic and noise properties

Pagano S;Sarnelli E;Calidonna C R;Russo M;Mango Furnari M
2000

Abstract

[object Object]
2000
The analysis has been carried out on a high performance computer, by choosing parameters typical of low critical temperature SQUIDs. In particular the dependence of both the magnetic nux noise Sm and the flux to voltage transfer function Vm on the bins current and the normalized SQUID inductance Shave been investigated Thermal noise effects, including contributions of both junction and damping resistance, have been introduced in the calculations. The results show that an increase of the asymmetry leads to higher V-Phi and lower S-Phi,values. This suggests to use asymmetric dc-SQUIDs to improve the device performance for both small and large inductance values.
squid
superconductivity
01.01 Articolo in rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/303264
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