Spin dynamic simulations of solid effect DNP: The role of the relaxation superoperator
A Karabanov, G Kwiatkowski, W Köckenberger - Molecular Physics, 2014 - Taylor & Francis
A Karabanov, G Kwiatkowski, W Köckenberger
Molecular Physics, 2014•Taylor & FrancisRelaxation plays a crucial role in the spin dynamics of dynamic nuclear polarisation. We
review here two different strategies that have recently been used to incorporate relaxation in
models to predict the spin dynamics of solid effect dynamic nuclear polarisation. A detailed
explanation is provided on how the Lindblad–Kossakowski form of the master equation can
be used to describe relaxation in a spin system. Fluctuations of the spin interactions with the
environment as a cause of relaxation are discussed and it is demonstrated how the …
review here two different strategies that have recently been used to incorporate relaxation in
models to predict the spin dynamics of solid effect dynamic nuclear polarisation. A detailed
explanation is provided on how the Lindblad–Kossakowski form of the master equation can
be used to describe relaxation in a spin system. Fluctuations of the spin interactions with the
environment as a cause of relaxation are discussed and it is demonstrated how the …
Relaxation plays a crucial role in the spin dynamics of dynamic nuclear polarisation. We review here two different strategies that have recently been used to incorporate relaxation in models to predict the spin dynamics of solid effect dynamic nuclear polarisation. A detailed explanation is provided on how the Lindblad–Kossakowski form of the master equation can be used to describe relaxation in a spin system. Fluctuations of the spin interactions with the environment as a cause of relaxation are discussed and it is demonstrated how the relaxation superoperator acting in Liouville space on the density operator can be derived in the Lindblad–Kossakowski form by averaging out non-secular terms in an appropriate interaction frame. Furthermore we provide a formalism for the derivation of the relaxation superoperator starting with a choice of a basis set in Hilbert space. We show that the differences in the prediction of the nuclear polarisation dynamics that are found for certain parameter choices arise from the use of different interaction frames in the two different strategies. In addition, we provide a summary of different relaxation mechanisms that need to be considered to obtain more realistic spin dynamic simulations of solid effect dynamic nuclear polarisation.
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