The nuclear spin symmetry conversion transition, whereby a methyl group changes tunnelling state (A↔E) and total nuclear spin (ΔI = ± 1), is made resonant by the flip of an unpaired electron spin (Δms = ± 1). The coupling between an unpaired electron in a free radical and a methyl group in a nearby molecule is via the inter-molecular spin-spin interaction. The matrix elements and transition probabilities for this transition are calculated explicitly. The motivation behind the calculation is to aid in the interpretation of electron spin relaxation experiments in γ-irradiated 4-methyl-2,6-t-butylphenol where these resonant transitions have a profound effect. The results presented have also been useful in the interpretation of nuclear magnetic...
We report a variety of experiments and calculations and their interpretations regarding methyl group...
International audienceA noteworthy example of a molecule with coupled large-amplitude motions is pro...
Proton spin-lattice relaxation times have been measured at 16, 31, and 59 MHz in 4-methyl-2,6-ditert...
The nuclear spin symmetry conversion transition, whereby a methyl group changes tunnelling state (A↔...
The energy transfer has been studied between free radicals and nearby tunnelling methyl groups near ...
The coupling of lattice vibrations with the rotational motion of hindered methyl groups is considere...
Field-cycling NMR in the solid state at low temperature (4.2 K) has been employed to measure the tun...
Methyl groups are ubiquitous in synthetic materials and biomolecules. At sufficiently low temperatur...
We report proton Zeeman relaxation rates R as a function of temperature T at 8.5 and 53 MHz in polyc...
In NMR the polarisation of the Zeeman system may be routinely probed and manipulated by applying res...
Methyl groups are ubiquitous in synthetic materials and biomolecules. At sufficiently low temperatur...
Coherence between tunnel-split states of a methyl quantum rotor can be generated and observed in sti...
We have measured the solid state nuclear magnetic resonance (NMR) 1H spin-lattice relaxation rate fr...
We have investigated the dynamics of the ethyl groups and their constituent methyl groups in polycry...
Part I contains a new magnetic resonance technique that has been developed to measure rates of fast ...
We report a variety of experiments and calculations and their interpretations regarding methyl group...
International audienceA noteworthy example of a molecule with coupled large-amplitude motions is pro...
Proton spin-lattice relaxation times have been measured at 16, 31, and 59 MHz in 4-methyl-2,6-ditert...
The nuclear spin symmetry conversion transition, whereby a methyl group changes tunnelling state (A↔...
The energy transfer has been studied between free radicals and nearby tunnelling methyl groups near ...
The coupling of lattice vibrations with the rotational motion of hindered methyl groups is considere...
Field-cycling NMR in the solid state at low temperature (4.2 K) has been employed to measure the tun...
Methyl groups are ubiquitous in synthetic materials and biomolecules. At sufficiently low temperatur...
We report proton Zeeman relaxation rates R as a function of temperature T at 8.5 and 53 MHz in polyc...
In NMR the polarisation of the Zeeman system may be routinely probed and manipulated by applying res...
Methyl groups are ubiquitous in synthetic materials and biomolecules. At sufficiently low temperatur...
Coherence between tunnel-split states of a methyl quantum rotor can be generated and observed in sti...
We have measured the solid state nuclear magnetic resonance (NMR) 1H spin-lattice relaxation rate fr...
We have investigated the dynamics of the ethyl groups and their constituent methyl groups in polycry...
Part I contains a new magnetic resonance technique that has been developed to measure rates of fast ...
We report a variety of experiments and calculations and their interpretations regarding methyl group...
International audienceA noteworthy example of a molecule with coupled large-amplitude motions is pro...
Proton spin-lattice relaxation times have been measured at 16, 31, and 59 MHz in 4-methyl-2,6-ditert...