Approximate Fourier Domain Expression for Bloch-Siegert Shift
Turk, E. A.
Ider, Y. Z.
Ergun, A. S.
Magnetic Resonance in Medicine
117 - 125
MetadataShow full item record
Turk, E. A., Ider, Y. Z., Ergun, A. S., & Atalar, E. (2015). Approximate Fourier domain expression for Bloch–Siegert shift. Magnetic resonance in medicine, 73(1), 117-125.
Please cite this item using this persistent URLhttp://hdl.handle.net/11693/10799
PurposeIn this study, a new simple Fourier domain-based analytical expression for the Bloch-Siegert (BS) shift-based B-1 mapping method is proposed to obtain vertical bar b(1)(+)vertical bar more accurately while using short BS pulse durations and small off-resonance frequencies. Theory and MethodsA new simple analytical expression for the BS shift is derived by simplifying the Bloch equations. In this expression, the phase is calculated in terms of the Fourier transform of the radiofrequency pulse envelope, and thus making the off- and on-resonance effects more easily understandable. To verify the accuracy of the proposed expression, Bloch simulations and MR experiments are performed for the hard, Fermi, and Shinner-Le Roux pulse shapes. ResultsAnalyses of the BS phase shift-based B-1 mapping method in terms of radiofrequency pulse shape, pulse duration, and off-resonance frequency show that vertical bar b(1)(+)vertical bar can be obtained more accurately with the aid of this new expression. ConclusionsIn this study, a new simple frequency domain analytical expression is proposed for the BS shift. Using this expression, vertical bar b(1)(+)vertical bar values can be predicted from the phase data using the frequency spectrum of the radiofrequency pulse. This method works well even for short pulse durations and small offset frequencies. Magn Reson Med 73:117-125, 2015. (c) 2014 Wiley Periodicals, Inc.