Training program
Master 1
Semester 1
| Unit | ECTS | Lect./Ex. | Practical |
| Signal Processing | 2 | 10h | 9h |
| Statistics | 2 | 10h | 9h |
| Material physics | 4 | 22h | 18h |
| Quantum physics | 4 | 31h | 9h |
| Statistical physics | 4 | 40h | |
| Fortran and scientific computing | 4 | 16h | 24h |
| Python and scripts | 1 | 2,5h | 12h |
| Big-data with Python | 1 | 2,5h | 6h |
| Numerical project (Python) | 2 | ||
| English or French | 3 | 24h | |
| Communication, deontology and lab project bibliography | 3 | 6h | 6h |
Semester 2
| Unit | ECTS | Lect./Ex. | Practical |
| Quantum optics | 2 | 20h | |
| Light-matter interactions | 2 | 20h | |
| Laser physics | 4 | 31h | 9h |
| Solid state physics | 4 | 31h | 9h |
| Molecular spectroscopy | 4 | 40h | |
| Classical dynamical systems | 2 | 10h | 10h |
| Molecular dynamics simulations | 2 | 5h | 15h |
| Databases | 1 | 3h | 9h |
| Numerical project (Fortran) | 2 | ||
| Digital production management | 1,5 | 4h | 9h |
| Scientific epistemology | 1,5 | 6h | |
| Lab project | 4 |
Master 2
Semester 3
| Unit | ECTS | Lect./Ex. | Practical |
| Quantum optics | 4 | 32h | 8h |
| Molecular spectroscopy | 2 | 20h | |
| Astrophysical spectroscopy | 2 | 17h | 3h |
| Quantum control and networks | 2 | 5h | 16h |
| Cold atoms and quant. open systems | 2 | 15h | 6h |
| Classical dynamical systems | 1 | 10h | |
| Network analysis | 1 | 10h | |
| Ab initio simulations | 2 | 10h | 10h |
| Astronomical data processing | 2 | 9h | 6h |
| Celestial mechanics simulations | 2 | 14h | 11h |
| High performance computing | 4 | 9h | 27h |
| Machine learning | 1 | 12h | |
| Free numerical project | 2 | ||
| English or French | 3 | 18h |
Semester 4
Final intership in a laboratory or in a compagny (30 ECTS)
The practical teachings consists to computer activities.