Code |
Description |
A3 |
Understanding and knowledge of the fundamentals of Quantum Information Theory, as well as two basic aspects of two four types of quantum technologies: computing, communications, metrology, simulation. |
A6 |
Know and understand the nature of the physical platforms for the processing of quantum information in photonic systems: quantum optics, integrated optical systems, opto-atomic systems, detection and measurement systems, semiconductor photonics. |
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. |
A12 |
Acquire skills for the design and estimation of resources that allow the development of quantum communication channels and networks and distributed computing. Know the state of development and current implementation of quantum networks, and the plans for their expansion. |
B11 |
Knowledge of quantum communications, theoretical principles and experimental implementations, both terrestrial and aerial and via satellite. |
B12 |
To have knowledge about quantum cryptography, its theoretical bases, existing implementations and the challenges they face. |
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 |