Dipole Localization Using An Integrated Radio Frequency Atomic Magnetometer
Ayse Marasli, Thomas Kornack, Casey Oware, Karen L. Sauer

TL;DR
This paper demonstrates a portable, integrated atomic magnetometer system capable of localizing nearby radio frequency dipole sources in three dimensions using multiple measurements, offering advantages over coil-based detection.
Contribution
The work introduces a novel RF source localization method using integrated atomic magnetometers, enabling 3D positioning with a compact, portable device that does not rely on coil detection.
Findings
Successfully localized RF dipole sources in 3D
Used a single magnetometer for multiple measurements
Developed a fully integrated, portable magnetometer system
Abstract
Optically-pumped atomic magnetometers have previously been used in arrays to reject interference from far away sources and enable the sensitive detection of local sources of radio frequency (RF) signals, useful, for instance, in the detection of low field NMR signals in an unshielded environment. We now demonstrate a complementary scheme in which four magnetometer measurements are used to locate in three dimensions a nearby radio frequency source. The methodology relies on the measurement of a radio frequency vector at two different positions and modeling the source as a magnetic dipole of known orientation. In contrast to coil detection, magnetometers have the advantage of measuring signals in a 2D plane, and do not inductively couple to their environment or each other, making them a strong candidate for localization of hidden RF sources. For this demonstration, we use only a single RF…
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Taxonomy
TopicsAtomic and Subatomic Physics Research · Geophysical and Geoelectrical Methods · Magnetic Field Sensors Techniques
