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The lecture develops some advanced topics of Introductory course on Mössbauer spectroscopy NFPL096 and
particularly extends the use of synchrotron radiation. Useful for the students of the master's degree and doctoral
study in the field of condensed matter and materials physics.
Last update: Chlan Vojtěch, doc. RNDr., Ph.D. (06.05.2019)
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The lectures develops some advanced topics of Introductory course on Moessbauer spectroscopy NFPL096 and particularly extends the use of synchrotron radiation. Useful for the students of the 4th and 5th year of the students of Physics of condensed systems and materials and of doctoral studies.
Last update: G_F (12.05.2016)
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Ústní zkouška. Last update: Kohout Jaroslav, doc. Mgr., Dr. (10.06.2019)
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Literatura
1) U. Gonser: Mössbauer Spectroscopy, Springer-Verlag Berlin Heidelberg New York 1975 2) P. Gütlich, E. Bill, A.X. Trautwein: Mössbauer Spectroscopy and Transition Metal Chemistry, Springer-Verlag Berlin Heidelberg 2011 3) Ch. P. Slichter: Principles of magnetic resonance. 3rd enl. and updated ed. Berlin, Springer, 1990, 655 s. ISBN 3-540-50157-6. 4) Ralf Röhlsberger: Nuclear Condensed Matter Physics with SynchrotronRadiation, Basic Principles, Methodology and Applications, Springer Berlin Heidelberg New York 2004, ISBN 3-540-23244-3 5) Nguyen TK Thanh, Magnetic Nanoparticles: From Fabrication to Clinical Applications, CRC Press Taylor & Group, Boca Raton, 2012 Last update: G_F (12.05.2016)
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Zkouška probíhá ústní formou. Požadavky ke zkoušce odpovídejí sylabu předmětu v rozsahu, který byl prezentován na přednášce. Last update: Kohout Jaroslav, doc. Mgr., Dr. (09.10.2017)
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1) Hyperfine Interactions Lamb-Mössbauer Factor, Electric Monopole Interaction, Electric Quadrupole Interaction, Second-Order Doppler Shift, Magnetic Dipole Interaction, Static Hamiltonian, Relative Intensities of Resonance Lines, Effect of Crystal Anisotropy on the Relative Intensities of Hyperfine Splitting Components (Goldanskii-Karyagin effect) 2) Magnetic Relaxation Phenomena Mössbauer Relaxation Spectra, Paramagnetic Relaxation Processes, Spin-Lattice Relaxation, Spin-Spin Relaxation, 3) Relaxation in Magnetic Nanoparticles Superparamagnetic Relaxation, Collective Magnetic Excitations, Interparticle Interactions 4) Nuclear Resonance Scattering Using Synchrotron Radiation Mössbauer Spectroscopy in the Time Domain, Nuclear Forward Scattering (NFS), Nuclear Inelastic Scattering (NIS), Phonon Creation and Annihilation Last update: G_F (12.05.2016)
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