Infopaket

Electronic Physics Laboratory

ВК 2.15

Вибіркова дисципліна для ОП

First

2024/2025

8 Semester

5

As a result of studying the discipline, the students will: • Understand the subject area of modern applied physics and mathematics. • Know the basics of technologies and methods of researching the properties of substances and materials, including nanomaterials. • Be able to critically interpret scientific and technical information related to applied physics. • Be able to apply physical, mathematical and computer models for the study of physical phenomena, devices and science-intensive technologies. • Understand the physical basis of creating new devices, equipment, materials (including nanomaterials), substances, technologies. • Be able to organize effective work individually and as a team member. • Be able to develop and formulate professional conclusions and reason them intelligently for professional and non-professional audiences. • Be able to present and defend the received scientific and practical results in oral and written form.

To study the discipline "Electronic Physics Laboratory", it is necessary to complete preparation and pass exams/credits in the following disciplines: • Fundamentals of physical electronics, • Microwave electronics and electrodynamics, • Vacuum physics and vacuum electronics, • Radio electronics.

"Electronic Physics Laboratory" is one of the key disciplines of the undergraduate training cycle in the field of modern radio physics, electronics and computer systems. It provides insight into the principles of operation of devices for surface research and microwave electronics.

1. H. Luth, Solid Surfaces, Interfaces and Thin Films, Springer, 2010. 2. Kenjiro Oura, Victor G.Lifshits, Alexender A. Saranin, Andrey V. Zotov, Mitsuhiro Katayama. Surface Science – An Introduction. Springer, 2004. http://ntc.dvo.ru/lecture/books/%23Surface%20Science-An%20Introduction%202003.pdf 3. K.W. Kolasinski, Surface Science, Wiley, 2008. 4. В.А.Сминтина. Фізико-хімічні явища на поверхні твердих тіл. Одеса: Астропринт, 2009. 5. S. Sze. Physics of Semiconductor Devices. Wiley, 2010. 6. Ю.О. Кругляк, М.В. Стріха. Узагальнена модель Ландауера-Датта-Лундстрома в застосуванні до транспортних явищ у графені // Український фізичний журнал. Огляди. – 2015. – т.10, №1. – С. 3-32. 7. J. Wolstenholme. Auger Electron Spectroscopy Practical Application to Materials Analysis and Characterization of Surfaces, Interfaces, and Thin Films. Momentum Press, LLC, New York, 2015. 8. K. L. Jensen. Introduction to the Physics of Electron Emission. Wiley, 2018.

Lectures, consultations; laboratory work; independent work.

Assessment forms: • semester assessment: during the semester, two cycles of laboratory work (content modules) are planned. A maximum of 45 points is awarded for the first cycle, a maximum of 35 points for the second cycle. The maximum number of points that can be awarded to a student during the semester is 80 points. • final assessment (in the form of credit): protection of reports from each of two cycles, each of which is evaluated from 0 to 10 points. • conditions for admission to the final assessment: the condition of admission to the credit is that the student receives at least 50 points. In the case of a student's absence due to valid reasons, working out and rescheduling the defense of laboratory works are carried out in accordance with the "Regulations on the Organization of the Educational Process at the Kyiv National University"

Ukrainian