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      • Track 4: Quantum
        • Track 1: Fundamental Physics
        • Track 2: Astrophysics and Cosmology
        • Track 3: Physics of Matter
        • Track 4: Quantum
        • Track 5: Complex Systems and Interdisciplinary Physics
        • Track 6: Machine Learning and Industrial Application
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        Track 4: Quantum

        Tracks 4: Quantum

        The Quantum track offers the student a vast selection of tools for understanding Quantum Physics in the perspective of Quantum Information Theory and the development of Quantum Technologies of tomorrow.
        The student's progression combines theoretical principles from quantum computation and quantum simulation, for the analysis and control of scalable quantum systems, together with practical strategies to build programmable quantum devices, employing atoms, ions and solid-state qubits.

        Models of theoretical physics*

        Quantum information with atoms and photons

        Physics of complex networks: structure and dynamics

        Introduction to quantum hardware

        Quantum Information and Computing

        Programmable Hardware Devices

        Numerical Methods in Soft Matter

        Structure of matter

        Neural networks and deep learning

        *Mandatory

         

        DEPARTMENT OF PHYSICS AND ASTRONOMY “G. GALILEI" - MASTER DEGREE IN PHYSICS OF DATA

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