Dynamic nuclear polarisation by thermal mixing: quantum theory and macroscopic simulations

Dynamic nuclear polarisation by thermal mixing: quantum theory and macroscopic simulations

A theory of dynamic nuclear polarisation (DNP) by thermal mixing is suggested based on purely quantum considerations. A minimal 6-level microscopic model is developed to test the theory and link it to the well-known thermodynamic model. Optimal conditions for the nuclear polarization enhancement and...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2016-11, Vol.18 (43), p.393-314
Hauptverfasser: Karabanov, Alexander, Kwiatkowski, Grzegorz, Perotto, Carlo U, Wi niewski, Daniel, McMaster, Jonathan, Lesanovsky, Igor, Köckenberger, Walter
Format: Artikel
Sprache:eng
Schlagworte:
Computer simulation
Dynamics
Free radicals
Optimization
Physical chemistry
Polarization
Spectra
Thermodynamic models
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Zusammenfassung:A theory of dynamic nuclear polarisation (DNP) by thermal mixing is suggested based on purely quantum considerations. A minimal 6-level microscopic model is developed to test the theory and link it to the well-known thermodynamic model. Optimal conditions for the nuclear polarization enhancement and effects of inhomogeneous broadening of the electron resonance are discussed. Macroscopic simulations of nuclear polarization spectra displaying good agreement with experiments, involving BDPA and trityl free radicals, are presented. A quantum theory of thermal mixing dynamic nuclear polarisation in solids is developed displaying a good agreement with experiments.
ISSN:1463-9076
1463-9084
DOI:10.1039/c6cp04345c