A method to suppress cycling sidebands in broadband decoupling

Adiabatic decoupling is as dependent on well-designed inversion pulse can be a sizable fraction of 1/J. However, phase cycles for performance as any broadband method. pulse length and RF field strength can be varied indepen-For example, the dramatic performance gains of STUD (1) dently in adiabatic

To provide the most efficient conditions for spin decoupling with least RF power, master calibration curves are provided for the maximum centerband amplitude, and the minimum amplitude for the largest cycling sideband, resulting from STUD؉ adiabatic decoupling applied during a single free induction

A technique for suppressing the finite-grid instability in plasma simulation by jiggling the computation mesh is revisited. Linear dispersion theory suggests a reduction in growth rate of \(50 \%\) when the mesh is randomly jiggled. With an implicit method, a large time step, and a grid with variabl

## Abstract An experimental method is described to eliminate frequency modulation sidebands in localized in vivo proton MR spectra acquired without water suppression. Based on the fact that the phases of the sideband artifact signals are coherent with the phases of the gradient pulses, the proposed