DocumentCode
1419525
Title
The Effect of Low Frequency External Field Disturbance on the SQUID Based Ultra-Low Field NMR Measurements
Author
Jin, Y.R. ; Wang, N. ; Li, S. ; Tian, Y. ; Ren, Y.F. ; Wu, Y.L. ; Deng, H. ; Chen, Y.F. ; Li, J. ; Tian, H.Y. ; Chen, G.H. ; Zheng, D.N.
Author_Institution
Nat. Lab. for Condensed Matter Phys., Chinese Acad. of Sci., Beijing, China
Volume
21
Issue
3
fYear
2011
fDate
6/1/2011 12:00:00 AM
Firstpage
518
Lastpage
521
Abstract
We have carried out NMR experiments in the microtesla range using a high-Tc DC-SQUID sensor. The measurements were carried out in a simple magnetically shielded room. Resonance spectra of 1H nuclei from tap water and other substance samples were obtained in the field range 7-70 μT. The effect of frequency, strength, direction and phase of a low frequency external disturbance field on the NMR spectra was investigated. A sinusoidal field was applied along or perpendicular to the measurement field to simulate the external disturbance. The results were compared with the numerical calculations based on the Bloch equation and good agreement was obtained. In all cases, the field disturbance less than a few Hz are proved to influence the NMR spectra more severely, suppressing the resonance peak and driving it into split bands. On the other hand, the influence of the disturbance field at the frequency range around 50 Hz on the resonance peak position and profile is small, even though some additional small peaks appear in the spectra due to frequency mixing. The effect is more significant when the disturbance field is along the direction of the measurement field. The phase difference between the disturbance field and the free-induction-decay signal could change the NMR peak position and profile drastically.
Keywords
SQUIDs; high-temperature superconductors; magnetic sensors; magnetic shielding; nuclear magnetic resonance; Bloch equation; NMR spectra; SQUID; free-induction-decay signal; high-Tc DC-SQUID sensor; low frequency external field disturbance effect; magnetic flux density 7 muT to 70 muT; magnetic shielded room; resonance peak position; resonance spectra; sinusoidal field; tap water; ultra-low field NMR measurements; Frequency measurement; Magnetic noise; Magnetic resonance imaging; Magnetic shielding; Nuclear magnetic resonance; SQUIDs; Nuclear magnetic resonance; SQUIDs;
fLanguage
English
Journal_Title
Applied Superconductivity, IEEE Transactions on
Publisher
ieee
ISSN
1051-8223
Type
jour
DOI
10.1109/TASC.2010.2096551
Filename
5680977
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