Infopaket

Oscillatory processes in nanostructured materials

ВК 12

Вибіркова дисципліна для ОП

First

2023/2024

8 Semester

4

LO2.Know and understand the physical basis of astronomical phenomena, as well as the basic physical processes occurring in them. LO3.Know and understand the experimental foundations of physics. LO7.Understand, analyse and explain new scientific results obtained during physical research LO12.Be able to present the obtained scientific results LO13.Understand the relationship of physics with other natural and engineering sciences. LO16.Be able to use software packages for solving physical problems. LO17.Know and understand the role and place of physics in the development of technology. LO21.Understand the basic principles of a healthy lifestyle. LO22.Understand the importance of physical research to ensure the development of society. LO24.Understand the place of physics in the general system of knowledge about nature and society and in the development of society, technology and engineering. LO25. Have the skills to make independent decisions about own professional development.

Full-time form

Know the basic laws of quantum physics, statistical physics and thermodynamics, methods of solving problems of quantum mechanics, the method of thermodynamic potentials, classical and quantum distribution functions. To be able to apply previous knowledge from the courses of mathematical analysis, mathematical physics, physical materials science to solve quantum mechanical problems and problems of building disordered systems. To possess basic skills of solving problems on eigenfunctions and eigenvalues in modelling of physical systems, to calculate energy spectra in quantum mechanical problems.

Within the discipline "Oscillatory processes in nanostructured materials" the fundamental physical principles are considered, which allow describing condensed media on the basis of their symmetry and the concept of elementary excitations and quasiparticles. To describe the latter, modern quantum-mechanical methods of describing multiparticle systems (in particular, the second quantization method) are used. In terms of providing a description of the basic principles and methods of physics of real disordered and nanostructured systems as a part of materials science, this course covers a range of issues on basic theoretical and experimental methods for studying the properties of both bulk crystalline bodies, amorphous substances, and nanostructured materials. This course provides a study of the physical principles basic for thermal, electronic and structural properties research of these systems.

1. J. Zaiman. Modern quantum theory. M .: Mir, 1971. 2. Yu. M. Poplavko. Solid-state physics. Volume 1. Structure, quasiparticles, metals, magnets. Kyiv: NTUU "KPI them. Igor Sikorsky », 2017 3. Yu. M. Poplavko. Solid-state physics. Volume 2. Structure, quasiparticles, metals, magnet dielectrics, semiconductors, phase transitions. Kyiv: NTUU "KPI them. Igor Sikorsky », 2017 4. Kobushkin, OP Quantum mechanics: textbook - Kyiv: NTUU "KPI. Igor Sikorsky », 2016. - 253 p.

Lectures, laboratory work, independent work, consultations.

Questioning during the lecture, checking essays and other forms of independent work. Modular tests. Сredit. 1 Module: modular test 1 (12-20 points). Defense of laboratory work (6 -10 points). 2 Module: modular test 2 (12-20 points). Defense of laboratory works (6-10 points). A student is not admitted to the exam if he 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