| Code |
Description |
| A2 |
Know and acquire competence in experimental techniques for the processing of quantum information: interactions, measurements, oscillations, interference, communication systems, ... |
| A4 |
Know and be able to apply the physical theories inherent to the understanding of systems for quantum information processing, including quantum thermodynamics as well as advanced aspects of magnetism and quantum mechanics. |
| A5 |
Know and understand the nature of the physical platforms for the processing of quantum information in solid state systems: superconducting systems, cryoscience and quantum materials, including or studying two topological states. |
| A11 |
Acquiring a solid foundation on quantum theory gives information on its application in quantum communications, as well as on the technology of two photonic devices used in quantum communications, both terrestrial and aerial and via satellite. |
| B1 |
To nnow the theoretical foundations of quantum mechanics, the mathematical formalism, the axioms and simpler systems. |
| B17 |
To have knowledge of experimental techniques of quantum information and communication. Optical and solid state devices. |
| C1 |
To analyze and break down a complex concept, examine each part and see how they fit together |
| C2 |
To classify and identify types or groups, showing how each category is different from the others |
| C3 |
To compare and contrast and point out similarities and differences between two or more topics or concepts |
