Artifacts induced by concomitant magnetic field in fast spin-echo imaging

When a linear magnetic field gradient is used, spatially higher-order magnetic fields are produced to satisfy the Maxwell equations. It has been observed that the higher-order magnetic field produced by the readout gradient causes axial echo planar images acquired with a horizontal solenoid magnet t

Echo-planar images acquired in nonaxial planes are often distorted. Such image distortion has limited the applications of the echo-planar imaging (EPI) technique. In this article, it is demonstrated that a considerable amount of the distortion is caused by the higher-order magnetic field concomitant

## Abstract The purpose of this work is to obtain a better understanding of motion artifacts in fast spin‐echo imaging, in order to eventually identify efficient ways of suppressing them. To do so, the point spread function of a moving point was calculated for fast spin‐echo imaging, and experiment

## Abstract A simple method was devised to reduce ringing and blurring artifacts caused by discontinuous T2 weighting of k‐space data in fast spin‐echo magnetic resonance (MR) imaging. The method demodulates the weighting function along the phase‐encoding direction by using multiple T2 values deriv

The NMR of the Earth's magnetic field is used for diffusionweighted imaging of phantoms. Due to a weak Larmor field, care needs to be taken regarding the use of the usual high field assumption in calculating the effect of the applied inhomogeneous magnetic field. The usual definition of the magnetic

## Abstract High‐resolution imaging of trabecular bone aimed at analyzing the bone's microarchitecture is preferably performed with spin‐echo‐type pulse sequences. Unlike gradient echoes, spin‐echoes are immune to artifactual broadening of trabeculae caused by local static field gradients near the