NMR Interactions and Relaxation Theory - NFPL193
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Summarizing NMR interactions, their description and anisotropic behavior. NMR spectra in solid materials. Influence of molecular motion on spectral shape. NMR spectra of liquids. Bloch-Wangsness-Redfield relaxation theory. Correlation functions and spectral densities for several motional models. Use of relaxation measurements for studies of
molecular dynamics. Exercises will concentrate on deeper understanding of these topics, making use of simulation programs (virtual NMR spectrometer). For physics specializations and for PhD students.
Last update: Chlan Vojtěch, doc. RNDr., Ph.D. (14.05.2019)
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Deeper understanding of quantum description of NMR interactions and their role in spin relaxation, including experimental use. Last update: KFNTZT/MFF.CUNI.CZ (11.04.2008)
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Exam is oral. Requirements correspond to syllabus of the subject to the extent presented at the lecture. Last update: Chlan Vojtěch, doc. RNDr., Ph.D. (12.06.2019)
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Kowalewski J, Maeler L; Nuclear spin relaxation: theory, experiments and applications; Taylor&Francis; 2006 Last update: KFNTZT/MFF.CUNI.CZ (11.04.2008)
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lectures and exercises Last update: KFNTZT/MFF.CUNI.CZ (11.04.2008)
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Summarizing NMR interactions, their description and anisotropic behavior.
NMR spectra in solid materials.
Influence of molecular motion on spectral shape.
NMR spectra of liquids.
Bloch-Wangsness-Redfield relaxation theory.
Correlation functions and spectral densities for several motional models.
Use of relaxation measurements for studies of molecular dynamics. Last update: T_KFNT (19.05.2006)
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