Pure-Phase Selective Excitation in NMR by Acquisition during the Pulse

in gain does not change the S/N ratio of the spectrum, since Paci and co-workers (1) have recently reported that selecboth the noise and signal are equally enhanced and digitized. tive-excitation pulse sequences (2-4), which are exten-Since digitizers are preceded by audio filters, which usually siv

## Abstract The use of band‐selective excitation with adiabatic pulses to rapidly obtain NMR spectra of trace components in the presence of strong signals is described, along with qualitative and quantitative examples from food matrices like olive oil and honey. Copyright © 2009 John Wiley & Sons,

We describe a new technique for double-quantum excitation in magic-angle-spinning NMR of powdered solids. The technique is designed to efficiently excite double-quantum coherence in the vicinity of a rotational resonance condition. The offset from rotational resonance allows the double-quantum filte

The selection of well-defined coherence transfer pathways is an essential feature of all but the simplest NMR and EPR pulse sequences. This selection can be achieved by phase cycling and by pulsed field gradients. The properties of the RF-pulses (flip angle, offset effects, inhomogeneity) and transp

We describe a new and powerful computer program called TRIPLE\_GRADIENT which calculates optimized pulsed field gradient sequences for specific coherence pathway selection or rejection. Sequences can be computed for gradient coils acting along one, two, or three perpendicular axes. The program is ba