Infopaket

Nanoelectronics

ОК 5

Обов’язкова дисципліна для ОП

Second

2021/2022

1 Semester

3

To make a phenomenological and theoretical description of the studied physical phenomena, objects and processes. Ability to search for information and data needed to solve complex problems of physics, using various sources, including scientific publications, scientific databases, etc., to evaluate and to critically analyze the information and data. The knowledge about mechanisms of formation of electric transport and magnetic properties of nanocarbon systems of different dimensions and structural perfection. The knowledge about the methods of obtaining and features of the structure of nanosystems, as well as the ability to establish a causal relationship between the features of their composition and properties.

Full-time form

The knowledge about the basics of quantum mechanics, semiconductor physics, general physics ("Electricity and Magnetism", "Atomic Physics"), the principles of classical electronic devices, the structure of electronic shells of isolated atoms and their inclusion in periodic structures. Be able to apply previous knowledge of mathematical analysis, differential and integral equations, quantum mechanics to solve equations and to describe systems of reduced dimension, to analyze band diagrams. Have basic skills in constructing a band diagram, calculating the tunneling coefficient, estimating the amount of current.

The course "Nanoelectronics" considers the impact of limited dimension on the processes of charge transfer, and ways to implement the functions provided in classical electronic devices, using structures of reduced size. The purpose of studying the discipline is to obtain in-depth and systematic knowledge of the principles of operation and possible ways of implementing electronic devices, the dimensions of which are in the nanometer range. The educational task of the course is to master the principles of operation of single-electron, molecular, spin and carbon nanoelectronic elements.

1. Baghdasaryan A.A. Fundamentals of nanoelectronics: a textbook, Sumy, Sumy State University, 2019. 133 p. 2. Osadchuk V.S., Osadchuk O.V. Fundamentals of nanoelectronics: Textbook, Vinnytsia, VNTU, 2016, 199 p. 3. Zhovnir M.F., Ivashchuk A.V., Paprotska O.A., Kushchevskaya N.F., Malyshev V.V. Fundamentals of nanoelectronics, K., University "Ukraine", 2018, 149 p. 4. Shishkin G.G., Ageev I.M. Nanoelectronics. Elements, devices, devices. M .: "Binom, Laboratory of Knowledge", 2012, 408 p. 5. Poplavko Y.M., Borisov O.V., Ilchenko V.I., Yakimenko Y.I. Microelectronics and nanoelectronics. Introduction to. Kyiv, NTUU "KPI", 2010, 160 p. 6. Borisenko V.E., Vorobieva A.I., Danilyuk A.L., Utkina E.A. Nanoelectronics: theory and practice: student, M .: "Binom, Laboratory of Knowledge", 2015, 369 p.

Lectures - 30 hours, self-study -60 hours, consultations.

Semester assessment: interviews during the lecture (up to 10 points during each of the two content modules); two modular tests (up to 20 points each). For students who during the semester did not reach the minimum threshold level of assessment (60% of the maximum possible number of points) is the final semester test, the maximum grade for which may not exceed 20% of the final grade. Final assessment in the form of an exam, maximum score of 40 points. A student is not allowed to take the exam if he / she scored less than 36 points during the semester. The grade for the exam cannot be less than 24 points to get an overall positive grade for the course.

Ukrainian