Concomitant magnetic field gradients and their effects on imaging at low magnetic field strengths

## Abstract Magnetic resonance imaging (MRI) is a beautiful application of the phenomenon of nuclear magnetic resonance (NMR). Classically, the field strength is regarded as one measure of its quality because high field strength gives higher signal to noise ratios, better resolution and reduced sca

## Abstract Air‐core coils are more practical than iron‐core magnets for producing the required magnetic field distribution for electron paramagnetic resonance imaging at frequencies of a few hundred megahertz. An air‐core, air‐cooled magnet/gradient coil system is presented in this paper, which is

## Abstract We delineated the effects of magnetic field strength on signal intensities to facilitate the specific findings of multiple system atrophy (MSA). Fifteen patients with probable MSA were imaged by 0.35T fast spin‐echo (FSE), 1.5T FSE, and 3.0T FSE using a consistent protocol, testing all

Low-field (L band) chemically induced dynamic electron polarization (CIDEP) in radical pair recombination in liquids is theoretically investigated. Simple analytical expressions for the low-field ST o and ST+ contributions are derived. It is shown that the characteristic features of the low-field ST

## Abstract Ethanol (EtOH) is believed to exert its neurochemical effects through interactions with brain cellular components, which causes a fraction of brain EtOH to have a lower molecular mobility. This facilitates magnetization transfer to other molecules similarly associated with macromolecule