High sensitive magnetometers and gradiometers based on DC SQUIDs with flux focuser

Highly sensitive DC SQUID magnetometers and gradiometers with flux focusers instead of traditional coupling coils were designed and experimentally tested. All refractory material DC SQUIDs with shunted Nb-AlO/sub x/-Nb tunnel junctions were used. The outer dimension of the square washer electrode wa...

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Bibliographic Details
Published in:IEEE Transactions on Magnetics (Institute of Electrical and Electronics Engineers); (United States) 1991-03, Vol.27 (2), p.2963-2966
Main Authors: Matlashov, A.N., Koshelets, V.P., Kalashnikov, P.V., Zhuravlev, Y.E., Slobodchikov, V.Y., Kovtonyuk, S.A., Filippenko, L.V.
Format: Article
Language:English
Subjects:
420500 > Engineering-- Materials Testing
440800 > Miscellaneous Instrumentation-- (1990-)
ALUMINIUM COMPOUNDS
ALUMINIUM OXIDES
Applied sciences
BEAM OPTICS
CALCULATION METHODS
CHALCOGENIDES
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
Couplings
DESIGN
EDDY CURRENT TESTING
Electrodes
ELECTROMAGNETIC PULSES
ELECTROMAGNETIC RADIATION
ELECTROMAGNETIC TESTING
ELECTRONIC EQUIPMENT
Electronics
ELEMENTS
ENGINEERING
Exact sciences and technology
FABRICATION
FLUXMETERS
FOCUSING
High temperature superconductors
Josephson junctions
JUNCTIONS
MAGNETIC FLUX
Magnetic materials
MAGNETOMETERS
MATERIALS TESTING
MEASURING INSTRUMENTS
METALS
MICROWAVE EQUIPMENT
MULTI-CHANNEL ANALYZERS
NIOBIUM
NONDESTRUCTIVE TESTING
OTHER INSTRUMENTATION
OXIDES
OXYGEN COMPOUNDS
PULSE ANALYZERS
PULSES
RADIATIONS
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
SENSITIVITY
SQUID DEVICES
SQUID magnetometers
Superconducting coils
SUPERCONDUCTING DEVICES
SUPERCONDUCTING JUNCTIONS
Superconducting materials
TESTING
TRANSITION ELEMENTS 665412 > Superconducting Devices-- (1992-)
TUNNEL EFFECT
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Summary:Highly sensitive DC SQUID magnetometers and gradiometers with flux focusers instead of traditional coupling coils were designed and experimentally tested. All refractory material DC SQUIDs with shunted Nb-AlO/sub x/-Nb tunnel junctions were used. The outer dimension of the square washer electrode was 2.5 mm and the inner 70 mu m. A wide superconducting washer concentrates the magnetic flux by twenty times, and a flux sensitivity of about 20 nT/ Phi /sub 0/ can be realized without any input coil. The application of the additional 14-mm diameter flux focuser has increased the flux concentration by four times. As a result, a magnetic field resolution of 10 fT/ square root Hz has been achieved; this figure corresponds to the flux resolution about 2*10/sup -6/ Phi /sub 0// square root Hz. Connecting the additional flux focuser to the compensation coils, one can create gradiometers of both the first and higher orders. The flux concentration coefficients were calculated for the several possible mutual positions of the SQUID washer and the focuser. The influence of the two focusers on each other was calculated. The experimental test makes it possible to get the correct relation between the effective area of the SQUID with a focuser and the outer sizes of the focuser. The first-order gradiometer, consisting of the rectangular focuser and compensation coil connected to it, has been experimentally verified. The results demonstrate that sensitivity of the magnetometers and gradiometers with flux focuses are very attractive for multichannel biomagnetic systems and for high-temperature SQUID magnetometers.
ISSN:0018-9464
1941-0069
DOI:10.1109/20.133832