Analysis and compensation of eddy currents in balanced SSFP

## Abstract In balanced steady‐state free precession (b‐SSFP) sequences, uncompensated first‐order moments of encoding gradients induce a nonconstant phase evolution for moving spins within the excitation train, resulting in signal loss and image artifacts. To restore these flow‐related phase pertu

## Abstract In functional MRI (fMRI) the resonance frequency shift induced from respiration is a major source of physiological noise. In transition‐band SSFP fMRI the respiration‐induced resonance offset not only increases noise interference, it also shifts the activation band. This leads to a redu

The eddy currents in nuclear magnetic resonance (NMR) imaging are analyzed from the solutions of Maxwell's equations and their effects are examined over various experimental conditions from whole-body diagnostic imaging to recently developed NMR microscopy. The analysis is focused mainly on the freq

## Abstract ## Purpose To investigate the feasibility of balanced steady‐state free precession (b‐SSFP) for blood oxygenation level–dependent (BOLD) MRI during a short‐term ischemia/reactive hyperemia (RH) experiment on human calf muscles. ## Materials and Methods To investigate contributions to

## Abstract We describe a technique for measuring the time dependence and field distortions of magnetic fields due to eddy currents (EC) produced by time‐dependent magnetic field gradients. The EC measuring technique uses a sample with short T~1~,T~2~ and many rf excitation pulses and free inductio

Thermally stimulated depolarization currents (TSDC) and differential scanning calorimetry (DSC) are performed on thermoplastic polyesters and dimethacrylate resins over temperature ranges covering the ␣ and ␤ relaxation regions. The noncooperative ␤ relaxation is characterized by a continuous variat