Micro- and nano-specialized elements and systems (176 – Sensor and diagnostic electronic systems)
Type: For the student's choice
Department: physical and biomedical electronics
Curriculum
Semester | Credits | Reporting |
9 | 6 | Setoff |
Lectures
Semester | Amount of hours | Lecturer | Group(s) |
9 | 16 | Associate Professor Bihun R. I. | ФеMм-11 |
Laboratory works
Semester | Amount of hours | Group | Teacher(s) |
9 | 32 | ФеMм-11 | Associate Professor Bihun R. I., Associate Professor Bihun R. I. |
Опис навчальної дисципліни
The course ‘Micro- and nanospecialised elements and systems’ is one of the main courses in the specialized training of students of technical and engineering specialties. Without a thorough knowledge of kinetic phenomena in nanoscale systems and metal condensates, future full-fledged professional activities in the areas of mathematical modeling, engineering design, development and diagnostics of modern elemental bases, etc. are impossible. The laws and phenomena of nanoscale physics
state physics is the basis of modern micro and nanoelectronics, the foundation for various fields of science and technology. Studying them during lectures and laboratory classes expands cognitive and engineering skills and enables you to master many other important courses at the Faculty of Electronics and Computer Technologies.
The laboratory workshop on the course ‘Micro- and nanospecialised elements and systems’ for students of the Faculty of Electronics is an important foundation for acquiring skills in working with equipment, provides information on methods of studying physical phenomena, and lays the groundwork for independent scientific work.
The purpose of the regulatory discipline ‘Micro- and nanospecialised elements and systems’ is to form a holistic picture of physical phenomena and processes in the operation, design, and control of modern microprocessor electronics devices. This involves presenting the basics of the following phenomena
charge transfer in nanoscale systems and the operation of devices of modern micro- and nanoprocessor technology. The subject of the discipline includes the basic concepts, laws, laws, design and development of control elements of microprocessor technology related to the sections of nanoscale state physics and electronics.
Recommended Literature
- 1. Gurtov V.A. Solid-state electronics. K.: Technosphere, 2017. 408 с.
- 2. Gotra Z.Y. Physical foundations of electronic engineering. Lviv: Beskyd Bit, 2017. 55с.
- 3. Suslikov L.M., Dyordyay V.S. Physics and Technology of Nanomaterials: A Study Guide for Students of Physical and Technical Specialities – Uzhhorod: Hoverla Publishing House, 2023. 437 p.
- 4. Matviykiv M.D. Element base of electronic devices: a textbook. Lviv: Lviv Polytechnic National University Press, 2017. 428 pp.
- 5. Koman B.P.. Functional elements of information systems based on semiconductor electronics: a textbook. Lviv: Ivan Franko National University of Lviv, 2018. 794 с.
- 6. Bondarenko I.M. Modern component base of electronic systems. Study guide. Kharkiv, NURE: 2020.- 268 с.
- 7. Melnyk O.S. Components of micro- and nanoelectronics. Lecture notes. – K.: Department of Electronics, IAS NAU, 2013. -191 с. https://elartu.tntu.edu.ua/handle/lib/42846.
- 8. V.V. Odinokov, G.Ya. Pavlov. New processing equipment for innovative technologies of micro, nano – and radio electronics. Technology and de-signing in the electronic equipment, 2011. v.3. PP. 41 – 43.
- 9. Nakhodkin M.G. Physical bases of micro- and nanoelectronics: textbook; MES of Ukraine; KNU, 2005. 432 с
- 10. M. C. Löbl, S. Paesani, and A. S. Sørensen, Efficient percolation simulations for lossy photonic fusion networks, Physical Review Research 6, 033273 (2024). DOI: 10.1103/PhysRevResearch.6.033273