NMR imaging with a rotary field gradient

The use of multiple pulse line narrowing for NMR imaging of solids is hampered because large magnetic field gradients can place some spins sufficiently far from resonance so that the local line narrowing effkiency is reduced. We propose that this interference can be modeled as a phase error of the r

We present a pulse sequence that enables the accurate and spatially resolved measurements of the displacements of spins in a variety of (biological) systems. The pulse sequence combines pulsed field gradient (PFG) NMR with turbo spin-echo (TSE) imaging. It is shown here that by ensuring that the pha

A simple gradient-echo technique is described which uses produce an echo. The data-sampling window extends from T/2 to 3T/2. For 3D imaging, this pulse sequence is repeated large oscillating field gradients to produce three-dimensional NMR images of small (20 mm) moulded plastic and rubber in the pr

To relax the high-speed requirement imposed on the gradient system used in solid-state proton imaging, we propose two simple modifications of the magic echo imaging sequence, TREV-16TS. In the first modification, the applied gradient is inverted in the middle of the RF irradiation; the second modifi

A novel generalized processing system is described whereby, using time-varying gradients, simultaneous data acquisition can be provided for all points in a volume. This is in sharp distinction to the sensitive-point method where only the null region is imaged. It is shown that time-varying gradients