A microprocessor-based magic-angle-sample-spinning rate controller

The application of magic angle sample spinning (MAS) NMR . The different approaches involve, on the one hand, to uniformly aligned biomembrane samples is demonstrated as static NMR on uniformly aligned samples (2) and, on the a new general approach toward structural studies of membrane other, magic

The rate constant of radiofrequency-driven (RF-driven) polarization transfer and that of polarization transfer under slow-magic-angle sample spinning (S-MAS) are compared using a model system, polycrystalline alpha-alpha'-13C2-phthalic acid. While the rate constant under RF irradiation in static sam

## Abstract Magic‐angle spinning (MAS) has recently been shown to enhance spectral resolution in NMR examinations of intact biological tissue ex vivo. This work demonstrates that freezing certain tissue samples before examination by ^1^H MAS NMR can have a marked effect on their spectra. Spectra of

Fast magic-angle spinning (MAS) holds promise for new approaches to pulsed high-resolution NMR in solids where homogeneous interactions dominate. Prerequisite for developing new pulse methods is the understanding of signal encoding by spin interactions under MAS conditions and of interferences betwe