A Computational Model of the Time Independent Bloch NMR Flow Equation for Molecular Imaging

Keywords

able absolute analogy another applied apply assumptions axes becomes blur brain cellular chosen completely computational concept concepts conditions contrast defined dependence describes detailed developed draw duration dynamics earlier electron encountered equation equations excision expressions fatty federal field final finally flow fluid fluids formulations foster frequency fundamental general gradient gray heart hence highlighted horizontal illustrations independent influence kidney lattice liver living magnetization magnitude make mathematical mechanical mechanisms methodology model modified molecular muscle need note often part phys physics place plots position positive procedure process processes properly properties pulse pulsed quantum quite real received reciprocals reduces relation represent represents respectively review short simple skeletal solution spatially species spin spleen strength studies subject taking technology temperature term terms theoretical tissue tissues transformation transverse type varying velocity vertical white worry