Course on Experimental Techniques in Condensed Matter Physics: Difference between revisions
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''Course | ''Course Mottos:'' | ||
<pre> | <pre> | ||
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==Lecture 1: | ==Lecture 1: Thermodynamic properties of materials and measurement methods== | ||
*Topics: Specific heat in thermodynamics, phonons and specific Heat, anharmonicity, electronic specific heat, relaxation calorimetry, QD PPMS, contributions to specific heat, thermal expansion, capacitive dilatometry. | |||
*[[Media:lecture1.pdf|PDF]] | *[[Media:lecture1.pdf|PDF]] | ||
*[[Vidoes]] | |||
===Additional references=== | ===Additional references=== | ||
==Lecture 2: | ==Lecture 2: Transport properties of materials and measurement methods== | ||
* Drude theory of conduction, conductivity and Fermi-Dirac statistics, resistance and resistivity in experiment, Hall effect, ACT PPMS, Thermal conductivity, TTO PPMS, thermoelectric materials. | |||
*[[Media:lecture2.pdf|PDF]] | *[[Media:lecture2.pdf|PDF]] | ||
===Additional references=== | |||
==Lecture 3: High pressure and magnetic field electric transport== | |||
*Topics: Cu-Be pressure cell, quantum oscillations | |||
*[[Media:lecture3.pdf|PDF]] | |||
===Additional references=== | ===Additional references=== | ||
Latest revision as of 15:34, 3 November 2020
Course Mottos:
In teaching, writing, and research, there is no greater clarifier than a well-chosen example. Formalism should not be introduced for its own sake, but only when it is needed for some particular problem.
Lecture 1: Thermodynamic properties of materials and measurement methods
- Topics: Specific heat in thermodynamics, phonons and specific Heat, anharmonicity, electronic specific heat, relaxation calorimetry, QD PPMS, contributions to specific heat, thermal expansion, capacitive dilatometry.
- Vidoes
Additional references
Lecture 2: Transport properties of materials and measurement methods
- Drude theory of conduction, conductivity and Fermi-Dirac statistics, resistance and resistivity in experiment, Hall effect, ACT PPMS, Thermal conductivity, TTO PPMS, thermoelectric materials.
Additional references
Lecture 3: High pressure and magnetic field electric transport
- Topics: Cu-Be pressure cell, quantum oscillations
