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Course, academic year 2023/2024
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Selected Topics on Magnetic Resonance Theory and Methodology - NFPL093
Title: Vybrané kapitoly z teorie a metodiky magnetické rezonance
Guaranteed by: Department of Low Temperature Physics (32-KFNT)
Faculty: Faculty of Mathematics and Physics
Actual: from 2020
Semester: winter
E-Credits: 3
Hours per week, examination: winter s.:2/0, Ex [HT]
Capacity: unlimited
Min. number of students: unlimited
4EU+: no
Virtual mobility / capacity: no
State of the course: taught
Language: Czech
Teaching methods: full-time
Teaching methods: full-time
Guarantor: doc. RNDr. Vojtěch Chlan, Ph.D.
prof. RNDr. Helena Štěpánková, CSc.
Classification: Physics > Solid State Physics
Annotation -
Last update: T_KFNT (12.05.2005)
Selected parts of the NMR and NQR spectroscopy in solids. Application of NMR for the study of crystal lattice defects and electron and magnetic structure of solids.
Aim of the course -
Last update: T_KFNT (11.04.2008)

Selected parts of the NMR and NQR spectroscopy in solids.

Course completion requirements -
Last update: prof. RNDr. Helena Štěpánková, CSc. (14.06.2019)

Ústní zkouška.

Literature - Czech
Last update: prof. RNDr. Helena Štěpánková, CSc. (18.10.2019)

[1] Slichter C.P., Principles of Magnetic Resonance, rev. vyd. Springer Verlag, Berlin 1990

[2] A. Abragam, Principles of Nuclear Magnetism, Clarendon Press (1983)

[3] Turov E.A., Petrov M.P.: Nuclear magnetic resonance in ferro- and antiferromagnets, Israel Program for Scientific Translations (1972)

[4] John Cavanagh, Nicholas Skelton, Wayne Fairbrother, Mark Rance, Arthur Palmer III,

Protein NMR Spectroscopy: Principles and Practice, 2nd edition, Elsevier Academic Press (2007)

[5] Winter J.: Magnetic Resonance in Metalls, Int. Ser. of Mon. no Phys., CLAREDON PRESS, Oxford (1971)

[6] Oliver Zerbe, Simon Jurt, Applied NMR Spectroscopy for Chemists and Life Scientists, Wiley-VCH Verlag (2013)

Requirements to the exam -
Last update: prof. RNDr. Helena Štěpánková, CSc. (14.06.2019)

Oral exam. Tasks according to the syllabus.

Syllabus -
Last update: T_KFNT (23.05.2003)

1. Introduction. Nuclear spin in a static magnetic field. Radiofrequency field. Basic interactions. Spin Hamiltonian. NMR. NQR. Qantum description.

2. Pulse techniques of experiment.

3. NMR in liquids. 1D, 2D pulsesequences, applications.

4. NMR in solids, high resolution methods. Averaging in coordinate and spin space.

5. NMR and NQR in metals. Study of lattice structure and defects. Relaxations and Knight shift.

6. NMR and NQR in magnetics. Study of crystal and magnetic structure. Influence of defects.

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