Infopaket

Microwave and Nanoelectronics

ВБ.1.03

Вибіркова дисципліна для ОП

First

2023/2024

6 Semester

3

The student should know: the general basics of microwave and nanoelectronics, the difference between the characteristics of laser and natural light, methods of measuring radiation parameters, the divergence of laser radiation and methods of its measurement, non-stationary research methods, the peculiarities of measurements in the picosecond range of pulse durations, the peculiarity of using femtosecond pulses, methods of determining the duration pico- and femtosecond pulses, basic algorithms for processing measurement results. The student must be able to: calculate the parameters of laser laser radiation, determine the characteristics of laser radiation, master the means of automation of measurements using MatLab.

Full-time form

The student must know: the main sections of general physics and mathematical analysis, linear algebra, numerical methods and the basics of digital signal processing at the bachelor's level of Taras Shevchenko Kyiv National University. The student must be able to: solve linear and nonlinear equations by numerical methods, use mathematical computer programs (Matlab, Mathcad) at the bachelor's level of Taras Shevchenko Kyiv National University.

The discipline allows you to master Maxwell's fundamental equations, dispersion laws and properties of electromagnetic radiation propagation in bulk and guiding structures, as well as the excitation and propagation of surface electromagnetic waves in multilayer structures and waveguides. In the discipline, the process of development and creation of signal processing devices in the appropriate spectral ranges of electromagnetic waves is considered in detail.

1. Мелков Г.А., Прокопенко О.В. Вибрані розділи з курсу «Мікрохвильова електродинаміка та електроніка»: навч. посіб. – К.: Радіофізичний факультет Київського національного університету імені Тараса Шевченка, 2013. – 226 с. 2. Зависляк І.В., Мартиш Є.В., Попов М.О., Васильків І.В. Мікрохвильова електродинаміка в задачах: навч. посіб. – К : ВПЦ "Київський університет", 2015. – 111 с. 3. Mitin Vladimir V., Kochelap Viatcheslav A., Stroscio Michael A. Introduction to Nanoelectronics: Science, Nanotechnology, Engineering, and Applications. – Cambridge: Cambridge University Press. – 2012. –346 pp. 4. Hoefflinger Bernd (Editor). Chips 2020: A Guide to the Future of Nanoelectronics (Frontiers Collection). – Berlin: Springer-Verlag. – 2012. – 505 pp. 5. RJ Martín-Palma, J Martínez-Duart, F Agulló-Rueda. Nanotechnology for microelectronics and optoelectronics (Elsevier, 2006)

Lectures 42 hours

Semester evaluation: control is carried out according to the following principle. The academic semester has two meaningful modules. After completion of topic No. 10, a written modular test is conducted. Mandatory for admission to the exam is writing a modular control paper with a score of at least 50. Final evaluation (in the form of credit): the form of the exam is written and oral. The exam ticket consists of 2 questions, each question is worth 20 points. A total of 0 to 40 points can be obtained for the exams. A condition for achieving a positive grade for a discipline is obtaining at least 60 points.

Ukrainian