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DS2EIO - Electrical and Optical Properties of Materials in Nanoelectronics and Photonics

Course specification
Course title Electrical and Optical Properties of Materials in Nanoelectronics and Photonics
Acronym DS2EIO
Study programme Electrical Engineering and Computing
Module Nanoelectronics and Photonics
Type of study doctoral studies
Lecturer (for classes)
    Lecturer/Associate (for practice)
      Lecturer/Associate (for OTC)
        ESPB 9.0 Status elective
        Condition no
        The goal Comprehensive presentation of methods for characterization. Primary objectives are detailed introduction to the experimental equipment and knowledge of the physical laws based on which a given method is implemented. The expected result is to teach students to use compatible methods in the analysis and characterization of materials used in photonics and nanoelectronics.
        The outcome The main goal is to prepare students for basic characterizations, introduction to the technology of obtaining nanomaterials and structures and full training for independent work on the method for characterization, by student choice.
        Contents
        Contents of lectures Introduction; Engineering of general and specific properties of materials for applications in photonics and nanoelectronics; Application of solid-state physics; Production technology of thin films by molecular beam epitaxy; Production technology of quantum dots and quantum structures; Vibrational spectroscopy - Raman and infrared; Galvanomagnetic measurements - the Hall experiment.
        Contents of exercises Laboratory work on selected laboratory equipment (Raman experiment, Photoluminescence, AFM, reflectance measurements in the far IR region).
        Literature
        1. John H Davies, The physics of low-dimensional semiconductors, an introductions, Cambridge university press, 1998. (Original title)
        2. T. Ruf, Phonon Scattering in Semiconductors, Quantum Wells and Superlattices, Springer Tracts in Modern Physics Vol. 142, 1998. (Original title)
        Number of hours per week during the semester/trimester/year
        Lectures Exercises OTC Study and Research Other classes
        6
        Methods of teaching Lectures / Mentorship, seminars
        Knowledge score (maximum points 100)
        Pre obligations Points Final exam Points
        Activites during lectures 10 Test paper 30
        Practical lessons 10 Oral examination 20
        Projects 0
        Colloquia 0
        Seminars 30