Calculation of the Main Frequency of an NMR Signal from an Even Frequency Spectrum

Andris, Peter; Frollo, Ivan

doi:10.2478/msr-2024-0028

Abstract

Nuclear magnetic resonance (NMR) measurements are most often used to measure images or display the spectrum of different samples. Depending on the samples, these can be medical applications, chemistry, physics, or mineralogy. Perhaps the most beneficial use is in medicine, as it allows you to image the inside of living organs without interfering with them. When physically examining samples, the frequency spectrum of the sample is often measured, which is then converted into a map of the inhomogeneities in the layer of interest. This article addresses one of several similar problems.

References

Brigham, E. O. (1973). The Fast Fourier Transform. Prentice-Hall, ISBN 978-0133074963.
Search in Google Scholar Back to article
Čížek, V. (1981). Discrete Fourier Transforms and their Applications. Prague, Czech Republic: SNTL, ISBN 9780852748008. (in Czech)
Search in Google Scholar Back to article
Andris, P., Szomolányi, P., Strolka, I., Banič, B., Bačiak, L., Weis, J., Jellúš, V., Frollo, I. (2003). Two approaches to measurement of the signal frequency in NMR based magnetic field stabiliser. Measurement Science Review, 3, 53-56. https://www.measurement.sk/2003/S3/Andris1.pdf
Search in Google Scholar Back to article
Andris, P., Frollo, I., Přibil, J., Gogola, D., Dermek, T. (2023). Conversion of the Bruker minispec instrumentation into the static magnetic field standard. Measurement Science Review, 23 (3), 124-129. https://doi.org/10.2478/msr-2023-0016
Search in Google Scholar Back to article
Sundramoorthy, S. V., Epel, B., Halpern, H. J. (2017). A pulse EPR 25 mT magnetometer with 10 ppm resolution. Applied Magnetic Resonance, 48 (8), 805-811. https://doi.org/10.1007/S00723-017-0902-0
Search in Google Scholar Back to article
Keller, P. (2011). NMR magnetometers. Magnetics Technology International, 68-71. ISSN 2397-589X.
Search in Google Scholar Back to article
Ulvr, M., Kupec, J. (2018). Improvements to the NMR method with flowing water at CMI. IEEE Transaction on Instrumentation and Measurement, 67 (1), 204-208. https://doi.org/10.1109/TIM.2017.2756119
Search in Google Scholar Back to article
Hoult, D. I., Richards, R. E. (1976). The signal-to-noise ratio of the nuclear magnetic resonance experiment. Journal of Magnetic Resonance, 24 (1), 71-85. https://doi.org/10.1016/0022-2364(76)90233-X
Search in Google Scholar Back to article
Hoult, D. I., Lauterbur, P. C. (1979). The sensitivity of the zeugmatographic experiment involving human samples. Journal of Magnetic Resonance, 34 (2), 425-433. https://doi.org/10.1016/0022-2364(79)90019-2
Search in Google Scholar Back to article
Weis, J., Ericsson, A., Hemmingsson, A. (1999). Chemical shift artifact-free microscopy: Spectroscopic microimaging of the human skin. Magnetic Resonance in Medicine, 41 (5), 904-908. https://doi.org/10.1002/(SICI)1522-2594(199905)41:5%3C904::AIDMRM8%3E3.0.CO;2-4
Search in Google Scholar Back to article
Bartušek, K., Dokoupil, Z., Gescheidtová, E. (2007). Mapping of magnetic field around small coil using the magnetic resonance method. Measurement Science and Technology, 18 (7), 2223-2230. https://doi.org/10.1088/0957-0233/18/7/056
Search in Google Scholar Back to article
Nešpor, D., Bartušek, K., Dokoupil, Z. (2014). Comparing saddle, slotted-tube and parallel-plate coils for magnetic resonance imaging. Measurement Science Review, 14 (3), 171-176. https://doi.org/10.2478/msr-2014-0023
Search in Google Scholar Back to article
Latta, P., Gruwel, M. L., Volotovskyy, V., Weber, M. H., Tománek, B. (2008). Single-point imaging with a variable phase encoding interval. Magnetic Resonance Imaging, 26 (1), 109-116. https://doi.org/10.1016/j.mri.2007.05.004
Search in Google Scholar Back to article
Witkovsky, V., Frollo, I. (2020). Measurement science is the science of sciences - there is no science without measurement. Measurement Science Review, 20 (1), 1-5. https://doi.org/10.2478/msr-2020-0001
Search in Google Scholar Back to article

Calculation of the Main Frequency of an NMR Signal from an Even Frequency Spectrum

Abstract

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