Open AccessAn unshielded radio-frequency atomic magnetometer with sub-femtoTesla sensitivity
Author(s) -
David A. Keder,
David W. Prescott,
A. Conovaloff,
Karen L. Sauer
Publication year - 2014
Publication title -
aip advances
Language(s) - English
Resource type - Journals
ISSN - 2158-3226
DOI - 10.1063/1.4905449
Subject(s) - magnetometer , radio frequency , physics , electromagnetic shielding , noise (video) , shielded cable , nuclear magnetic resonance , signal (programming language) , magnetic field , acoustics , electrical engineering , engineering , computer science , quantum mechanics , artificial intelligence , image (mathematics) , programming language
We demonstrate a radio-frequency potassium-vapor magnetometer operating with sensitivities of 0.3 fT/Hzat 0.5 MHz and 0.9 fT/Hzat 1.31 MHz in the absence of radio-frequency and mu-metal or magnetic shielding. The use of spatially separated magnetometers, two voxels within the same cell, permits for the subtraction of common mode noise and the retention of a gradient signal, as from a local source. At 0.5 MHz the common mode noise was white and measured to be 3.4 fT/Hz; upon subtraction the noise returned to the values observed when the magnetometer was shielded. At 1.31 MHz, the common mode noise was from a nearby radio station and was reduced by a factor of 33 upon subtraction, limited only by the radio signal picked up by receiver electronics. Potential applications include in-the-field low-field magnetic resonance, such as the use of nuclear quadrupole resonance for the detection of explosives
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