Effect of Superconducting Components on Imaging Field Homogeneity in Ultra-Low-Field MRI

Keywords

absence absolute acceptable achieved adopts advantages allows alone analytical anisotropic applicability arrangements assumptions better blocks bulk carefully classical close coils colored comparable compensating components composite computationally computed configuration considerably constant cross degradation depends depicted derived detectors development device diameter distortion distortions dorsal effective encloses engineering enhanced enough experiment experimental external field fields filament filaments fine finite focused formula geometric geometries geometry going green head homogeneity homogeneous horizontal immune immunity impact increasing indicated individual infinite infinitesimally inhomogeneities inhomogeneity inner instead interference introduced investigate keeping limit limitations located made mark marked material materials matrix medical mesh model modeled modeling much niobium numerical occipital optimal patient permeability perpendicular placed placement plates polarizing presence previously quantum question rectangular respect scales school science section sensitive sensors setup several shields simplifies simulation simulations since software solid solids square squid squids strategy strictly structure superconducting superconductor surface symmetrical system technical theoretical ultra upper various vertical volume wide zero