1. Overview and aspects of quantum technologies (QT): introduction to quantum computing, quantum

 sensing, quantum information and communication and quantum materials

 2. System-level introduction:

     a. Review of quantum mechanics

     b. Two-level system

     c. Examples of two-level systems and connection to QT

     d. Single-photon sources

     e. Single-photon detectors

 3. Measurement and control of quantum systems:

    a. Peripheral quantum technologies: Lasers, detectors, arbitrary waveform generators, FPGAs

    b. Introduction to integrated quantum technologies: building a control GUI via Matlab / python

    c. Quantum control:

        i. Introduction to Rabi, Ramsey and dynamical decoupling protocols

        ii. Simulation: writing your own quantum codes for control

        iii. Characterization of quantum systems: Measurement of coherence

        iv. Single photon source characterization: Hanbury Brown and Twiss experiment

        v. Introduction to control errors and error correction

        vi. Machine learning applied to quantum control

 4. Applications and State of the art in QT:

     a. MRI

     b. Quantum computers

     c. Quantum communication protocols