Calculus Quantum physics Advanced quantum physics Basic knowledge in Python and Computer algebra

1. Devices / implementations - Spin, charge and valley in quantum dots - Flux and charge in SQUIDs - Hybrid systems, cavities 2. Decoherence models - Phonons, Caldeira-Leggett model - Circuit impedance - Spin bath 3. Transport - Rate equations - Pauli blockade - Cooper pair splitting 4. Measurement and readout - Cavity-qubit models - Dispersive shift - Dicke model, superradiance - Spin readout 5. Control - AC driving and artificial gauge fields - Adiabatic control

Educational activities: Theory lessons Tutorial sessions Practical quantum programming activities Individual student work Educational Methodologies: Classroom lessons by lecturers in which the main concepts will be developed. Bibliography will be provided to students as a complement to the main lessons Solution of practical exercises in the classroom and also individually by students. Practices on quantum programming.