The incorporation of presaturation and partial relaxation in solvent-suppression pulse sequences

## Abstract The use of spatial presaturation to suppress the signal, and therefore also the artifacts, from flowing blood has become an important tool in the arsenal of techniques to suppress pulsatile flow artifacts in magnetic resonance images. However, a detailed theoretical analysis of the beha

The problem of water suppression is exacerbated by the same for exchangeable and nonexchangeable species. The effects of radiation damping, particularly at high magnetic ''splicing'' of sophisticated water-suppression pulse subfields in high-sensitivity NMR probes. A new method of units into pulse s

NMR pulse sequences have been investigated which selectively suppress undesired signal components from multiple-exponential spin-spin and spin-lattice relaxation curves. Suppression is achieved by exploiting differences in the relaxation times of sample components. Special attention is devoted to di

A general method of selective excitation design for shaped pulses and pulse sequences is presented, based on analysis of the derivatives of \(M_{+}(\Delta \omega)\), where \(M_{+}\)is the transverse magnetization and \(\Delta \omega\) is the resonance-offset frequency. We use this method to derive p