DEA Physics of Matter
- 1.
- Quantum Mechanics (F Spiegelmann)
- Symmetries
- Methods of approximation
- Systems with several particles
- Density matrix
- Introduction to the N-body problem
- Green's functions and resolvent
- 2.
- Statistical physics (J Bellissard)
- Quantum gases
- Phenomenology of the phase transitions
- Mean field theory (Landau)
- Laws of scale and renormalisation group
- Soluble models
- 3.
- Solid state physics (J.C. Ousset)
- Symmetries in the solid
- Network properties
- Electronic band structure
- Electron-phonons interaction
- 4.
- Radiation-matter interaction (P. Labastie)
- Quantification of the electromagnetic field
- Evolution of an interacting system with the quantified field.
- 5.
- Theory of the fundamental interactions and the electronic structure
(J.P. Daudey)
- Theory of the molecular orbitals. Symmetries
- Intermolecular forces and representation of the potential surfaces
- Electronic correlations in the molecules and the aggregates
- Excited electronic states
- Adiabatic and diabatic representation.
- 6.
- Theory of dynamical processes (J.A. Beswick)
- Dynamics of the dependent states
- States of the continuum
- Traditional and semi-traditional approximations
- 7.
- Applications and experimental studies (B Girard)
- Laser spectrometry
- Handling and control of the atoms by Laser and external fields
- 8.
- Quantum field theory (F Mila)
- Description of the quantum fields
- Calculation of the disturbances. Diagrammatic developments