The concept of spatially-encoded single-scan NMR

## Abstract Single‐scan MRI underlies a wide variety of clinical and research activities, including functional and diffusion studies. Most common among these “ultrafast” MRI approaches is echo‐planar imaging. Notwithstanding its proven success, echo‐planar imaging still faces a number of limitation

## Abstract Single‐scan 2D NMR relies on a spatial axis for encoding the indirect‐domain internal spin interactions. Various strategies have been demonstrated for fulfilling the needs underlying this procedure. All such schemes use gradient‐echoed sequences that leave at their conclusion solely the

An approach has been recently introduced for acquiring two-dimensional (2D) nuclear magnetic resonance images in a single scan, based on the spatial encoding of the spin interactions. This article explores the potential of integrating this spatial encoding together with conventional temporal encodin

## Abstract Ultrafast 2D NMR allows the acquisition of a 2D spectrum in a single scan. However, even when the acquisition of ultrafast spectra is carried out under optimized conditions, the appearance and the sensitivity of 2D spectra are often not satisfactory compared with what one could expect f

Large spatially distributed microwave and millimeter-wave systems involve the interaction of linear and nonlinear circuits with their electromagnetic environment. Here a circuit-level approach to the modeling of circuit-field interactions is developed.