Email this article Reduction of Effect of Concomitant Gradients in Low Magnetic Field MRI via Optimization of Gradient Magnetic System
- Authors: Chizhik V.1, Frolov V.1, Kupryanov P.1, Tyutyukin K.1
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Affiliations:
- Faculty of Physics, Saint Petersburg State University
- Issue: Vol 48, No 7 (2017)
- Pages: 687-698
- Section: Original Paper
- URL: https://journals.rcsi.science/0937-9347/article/view/247818
- DOI: https://doi.org/10.1007/s00723-017-0909-6
- ID: 247818
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Abstract
The effect of concomitant magnetic fields emerging in conjunction with encoding gradients, which is important in the process of the magnetic resonance imaging in low fields, has been considered. The manifestations of concomitant magnetic fields in a concrete gradient system, namely in the system of two coaxial gradient coils, have been thoroughly analyzed. It has been suggested to improve the gradient system via optimization of the interspace between coils on the basis of the standard criterion of the minimum of root-mean-square deviation of the encoding field dependence from a linear one. It has been shown that the optimal interspace is not the Maxwell condition.
About the authors
Vladimir Chizhik
Faculty of Physics, Saint Petersburg State University
Email: vfrolovv@bk.ru
Russian Federation, Saint-Peterburg
Vyacheslav Frolov
Faculty of Physics, Saint Petersburg State University
Author for correspondence.
Email: vfrolovv@bk.ru
Russian Federation, Saint-Peterburg
Pavel Kupryanov
Faculty of Physics, Saint Petersburg State University
Email: vfrolovv@bk.ru
Russian Federation, Saint-Peterburg
Konstantin Tyutyukin
Faculty of Physics, Saint Petersburg State University
Email: vfrolovv@bk.ru
Russian Federation, Saint-Peterburg
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