Laser and Optoelectronic Engineering

8.153.00.01 Laser and Optoelectronic Engineering
Qualification awarded: Master in Micro- and Nanosystem Engineering
Entry year: 2021
Mode of study: full
Program duration: 1.5 year
Institute: Institute of Telecommunications, Radioelectronics and Electronic Engineering
Number of credits: 90 credits ECTS
Level of qualification according to the National Qualification Framework and the European Qualifications Framework: NQF Level 7 (Second cycle of QF-EHEA / EQF Level 7)
Field(s) of study: Automation and instrumentation
Gained competence: Formulate and solve complex engineering, production and/or scientific problems in the design, manufacture and research of micro- and nanosystem technology for various purposes and the creation of competitive developments, the implementation of results in business projects Determine directions, develop and implement projects for the modernization of the production of micro- and nanosystem technology, taking into account technical, economic, legal, social and environmental aspects. To optimize the design of systems, devices and components of micro and nanosystem technology, as well as their manufacturing technologies. Apply specialized conceptual knowledge, including modern scientific achievements, as well as a critical understanding of modern problems in the field of micro- and nanoelectronics to solve complex problems of professional activity. Communicate freely in the state and foreign languages ??orally and in writing to discuss professional problems and results of activities in the field of micro and nanoelectronics, presentation of research results and innovative projects. Develop products and components of micro- and nanosystem technology, taking into account the requirements for their characteristics, technological and resource limitations; use modern design automation tools. Solve the problems of synthesis and analysis of instruments and devices of micro- and nanosystem technology Collect the necessary information using scientific and technical literature, databases and other sources, analyze and evaluate it. Ensure the quality of production; choose technologies that guarantee the required characteristics of solid-state devices; apply modern methods of control of micro- and nanosystem technology
• apply the acquired knowledge with the optics/photonics and problem-solving ability in these fields in its theoretical, experimental and technological aspects; • develop methods and systems of measurement and diagnostics, introduce methodologies, formulate relevant qualitative and quantitative models and use them to construct optimal solutions, carry out experimental measurements in the field of photonics; • apply the acquired knowledge for research in academic laboratories and research institutes, in high-technology photonics-related companies; • participate in research work, demonstration of learning skills that allow you to continue your training in the field of photonics individually and independently; • development of new photonic products in industry and technical support products or services; • possibility technical marketing and sales of photonics production.
• the program involves forming judgments influenced by global and dynamic development of photonics as outstanding science and technology of the XXI century; • the program provides interdisciplinary understanding and judgment of optics/photonics on scientific aspects of engineering for use in key sectors of the economy with emphasis on both fundamental science and practical application; • the program has the competencies required to analyses, synthesize and evaluate theory and experiments relating to complex engineering systems, issues and solutions for the benefit of society.
Access to further studies: Obtaining third (educational and scientific / educational and creative) level