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Basic description of the heat capacity of solids, lattice vibrations,
phase transitions, electron specific heat, magnetic excitations. Models
and reality, effective analysis of experimental data. Types of heat
capacity measurements, realization of experiments.
Last update: T_KFES (23.04.2014)
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Successful completion of the exam. Last update: Mikšová Kateřina, Mgr. (10.05.2023)
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1. N. W. Ashcroft, N. D. Mermin: Solid State Physics, Saunders College, Philadelphia 1976. 2. Ch. Kittel: Úvod do fyziky pevných látek, Academia, Praha, 1985. 3. A. Cezairliyan: Specific Heat of Solids, Hemisphere Publishing Corporation, 1988 Last update: Javorský Pavel, prof. Mgr., Dr. (29.04.2019)
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knowledge on the level of the lecture subject matter. Oral exam only. Last update: Javorský Pavel, prof. Mgr., Dr. (12.05.2022)
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Heat capacity under constant volume and pressure, basic thermodynamic relations. Heat capacity of lattice vibrations, Debye and Einstein model, comparison with real materials, anharmonicity. Heat capacity of conduction electrons. Heat capacity of magnetic materials and superconductors, paramagnetic and magnetically ordered state, dimension of the magnetic order, critical phenomena.
Experimental methods of heat capacity measurements, static and dynamic measurement, adiabatic and relaxation method. Practical realization of experiments and the experimental accuracy. Measurement of transuranium samples.
Practical aspects of data treatment, danger and limitations. Last update: T_KFES (23.04.2014)
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