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Apodized pickup coils for improved spatial resolution of SQUID magnetometers

Journal Article · · Review of Scientific Instruments; (USA)
DOI:https://doi.org/10.1063/1.1141336· OSTI ID:6516908
;  [1]
  1. Living State Physics Group, Vanderbilt University, Nashville, TN (USA) Vanderbilt Electromagnetics Laboratory, Department of Physics and Astronomy, Vanderbilt University, Nashville, TN (USA)
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The spatial resolution of a SQUID magnetometer is known to be determined by the size of the magnetometer pickup coil and the distance of this coil from the source of the magnetic field. With the advent of spatial-filtering techniques for converting magnetic field maps to current density images, it is clear that the quality and spatial resolution of the current image is also affected by the detailed characteristics of the transfer function between the current sources and the pickup coil. We show that the quality of a current image can be improved over that obtained with conventional pickup coils by using a multiturn pickup coil whose interturn spacing is adjusted to provide a source-coil transfer function with specific characteristics. This process is functionally equivalent to apodization techniques applied in optical image processing, in which the aperture function of the telescope is adjusted to improve spatial resolution. In coil design, the process of apodization involves designing a magnetometer coil whose transfer function has its first zero at a relatively large spatial frequency. Using apodization, we can decrease coil size and increase the number of turns without a large increase in coil inductance. Our model calculations demonstrate that apodization allows us to optimize the ability of a coil design to image a current distribution, subject to the constraints of signal-to-noise ratio, spatial resolution, and coil inductance.

OSTI ID:
6516908
Journal Information:
Review of Scientific Instruments; (USA), Journal Name: Review of Scientific Instruments; (USA) Vol. 61:9; ISSN RSINA; ISSN 0034-6748
Country of Publication:
United States
Language:
English

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Related Subjects

426001* -- Engineering-- Superconducting Devices & Circuits-- (1990-)
75 CONDENSED MATTER PHYSICS
SUPERCONDUCTIVITY AND SUPERFLUIDITY
DESIGN
DIPOLES
ELECTRIC COILS
ELECTRICAL EQUIPMENT
ELECTRONIC EQUIPMENT
EQUIPMENT
FLUXMETERS
MAGNETIC DIPOLES
MAGNETIC FIELDS
MAGNETOMETERS
MEASURING INSTRUMENTS
MICROWAVE EQUIPMENT
MULTIPOLES
RESOLUTION
SIGNAL-TO-NOISE RATIO
SOLENOIDS
SPATIAL RESOLUTION
SQUID DEVICES
SUPERCONDUCTING DEVICES