Exploring the limits of RF shimming for high-field MRI of the human head

## Abstract Although a variety of methods have been proposed to provide automated adjustment of shim homogeneity, these methods typically fail or require large numbers of iterations in vivo when applied to regions with poor homogeneity, such as the temporal lobe. These limitations are largely due t

## Abstract High field magnetic resonance offers new opportunities because of its high SNR and better spectral resolution for MRI and MRS. However, new problems also emerge at high field. As the field strength increases, the wavelength in the tissue becomes shorter and comparable with the body dime

The RF field intensity distribution in the human brain becomes inhomogeneous due to wave behavior at high field. This is further complicated by the spatial distribution of RF field polarization that must be considered to predict image intensity distribution. An additional layer of complexity is invo

## Abstract ## Purpose To evaluate the B1 field uniformity of a double‐tuned birdcage coil designed for ^31^P/^1^H MRI/MRS spin‐echo (SE) imaging of the metatarsal head region of the foot in neuropathic diabetic patients. ## Materials and Methods A low‐pass double‐tuned ^31^P/^1^H RF birdcage co

## Abstract A magnetic resonance imaging method for measuring the __T__~2~ relaxation time constant is proposed. It is based on the assumption that, under very general conditions, the MR signal near a spin echo has a special symmetry arising from the refocusing nature of the 180° RF pulse. A gradie