Course on Experimental Techniques in Condensed Matter Physics: Difference between revisions

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==Lecture 1: Thermodynamic properties of materials and measurement methods==
==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 two
*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.
method, contributions to specific heat, thermal expansion, capacitive dilatometry.
*[[Media:lecture1.pdf|PDF]]
*[[Media:lecture1.pdf|PDF]]
*[[Vidoes]]


===Additional references===
===Additional references===


==Lecture 2: Transport properties of materials and measurement methods==
==Lecture 2: Transport properties of materials and measurement methods==
* Drude theory of conduction, conductivity and Fermi-Dirac statistics, electrical resistivity, Hall effect, ACT PPMS, Thermal conductivity, TTO PPMS, thermoelectricity.
* 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===
===Additional references===


==Lecture 3: High pressure and magnetic field measurements==
==Lecture 3: High pressure and magnetic field electric transport==
*Topics:
*Topics: Cu-Be pressure cell, quantum oscillations
*[[Media:lecture3.pdf|PDF]]
*[[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.
  • PDF
  • 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.
  • PDF

Additional references

Lecture 3: High pressure and magnetic field electric transport

  • Topics: Cu-Be pressure cell, quantum oscillations
  • PDF

Additional references

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