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Volumn 235, Issue , 2013, Pages 71-76
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Propagation of dynamic nuclear polarization across the xenon cluster boundaries: Elucidation of the spin-diffusion bottleneck
a
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Author keywords
Chemical shift; Dipolar broadening; Hyperpolarization; MRI; Nuclear spin diffusion; Partial differential equations; Solid state diffusion
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Indexed keywords
DIPOLAR BROADENING;
DYNAMIC NUCLEAR POLARIZATION;
EQUILIBRIUM POLARIZATION;
HYPERPOLARIZATION;
NUCLEAR SPINS;
REAL TIME MEASUREMENTS;
RELAXATION TIME CONSTANT;
SOLID-STATE DIFFUSION;
CHEMICAL SHIFT;
ESTIMATION;
MAGNETIC RESONANCE IMAGING;
NUCLEAR MAGNETIC RESONANCE;
PARTIAL DIFFERENTIAL EQUATIONS;
SPIN DYNAMICS;
SPIN POLARIZATION;
DIFFUSION;
PROPANOL;
TRITIUM;
XENON;
ALGORITHM;
ARTICLE;
CHEMICAL MODEL;
CHEMISTRY;
DIPOLAR BROADENING;
EQUIPMENT;
HYPERPOLARIZATION;
METHODOLOGY;
NUCLEAR MAGNETIC RESONANCE IMAGING;
NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY;
NUCLEAR SPIN DIFFUSION;
PARTIAL DIFFERENTIAL EQUATIONS;
PROTON NUCLEAR MAGNETIC RESONANCE;
SOLID-STATE DIFFUSION;
CHEMICAL SHIFT;
DIPOLAR BROADENING;
HYPERPOLARIZATION;
MRI;
NUCLEAR SPIN DIFFUSION;
PARTIAL DIFFERENTIAL EQUATIONS;
SOLID-STATE DIFFUSION;
1-PROPANOL;
ALGORITHMS;
MAGNETIC RESONANCE SPECTROSCOPY;
MODELS, CHEMICAL;
TRITIUM;
XENON;
XENON ISOTOPES;
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EID: 84884468798
PISSN: 10907807
EISSN: 10960856
Source Type: Journal
DOI: 10.1016/j.jmr.2013.07.006 Document Type: Article |
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Times cited : (12)
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References (19)
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