Special scientific seminar in physiscs

Course: Quantum computers, computing and information

Structural unit: Faculty of Physics

Title
Special scientific seminar in physiscs
Code
ВК4.2
Module type
Вибіркова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2021/2022
Semester/trimester when the component is delivered
3 Semester
Number of ECTS credits allocated
6
Learning outcomes
The result of studying the course is knowledge main aspects of optical spectroscopy of crystals and periodic nanostructures. Introduction to the main characteristics and experimental methods of studying crystals and periodic nanostructures. Understanding of theoretical bases of symmetric methods of calculation of energy spectra of electronic and oscillatory excitations and their dispersion in crystals and periodic nanostructure, and the ability to apply these methods in scientific work. Knowledge of methods of analysis and presentation of research results in oral (presentation) and written form (papers, Diplom thesis). Ability to form the optimal structure of the presented results of research work, using possible technical means of presentations.
Form of study
Full-time form
Prerequisites and co-requisites
Knowledge of the basic laws of physics, formulated in the course of general physics and the basics of quantum mechanics. Be able to apply previous knowledge of the courses in mathematical analysis, and mathematical physics. Posses the basic skills in conducting and analyzing the results of experimental work.
Course content
The first part presents theoretical and experimental methods used in the study of vibrational and electronic excitation spectra in molecules and crystals and nanostructures, methods of the theory of projective representations of spatial and point symmetry groups, methods for studying spin-dependent electronic states, and methods of studying vibrational and electronic states in crystals In the second part the methods of presenting the results of research works of students in written and oral form (presentation). In particular, the review part of the work, features of analytical description of the physical properties of systems. Approaches to the analysis of the studied phenomena and results of experiments, formulation of the main conclusions, and ways of their written presentation and oral presentation are given and discussed.
Recommended or required reading and other learning resources/tools
1. L.D. Landau, E.M. Lifshits. Theoretical physics in 10 volumes.Volume3. Quantum mechanics. Nonrelativistic theory. M., Science, Ch. ed. Phys.-Math. lit., 1989 2. G.L. Beer, G.E. Picus. Symmetry and deformation effects in semiconductors. M., Science, Ch. ed. Phys.-M 3. V.O. Gubanov, L.N. Ovander. Development of the Bethe method for the construction of two-valued space group representations and two-valued projective representations of point groups. Ukr.J.Phys., 2015, Vol.60, No.9, phys.-math. lit., 1972. 4. G.L. Squires. Practical Physics. Mc.Graw –Hill –London, 1968.
Planned learning activities and teaching methods
Lectures, seminars.
Assessment methods and criteria
The results of students' learning activities are evaluated on a 100-point scale. Forms of current control: assessment of oral answers, written independent assignments. The student can receive a maximum of 10 points for oral answers and 15 points for each of the two intermediate essays. The final control is conducted in the form of a test, during which the student can receive a maximum of 60 points.
Language of instruction
Ukrainian

Lecturers

This discipline is taught by the following teachers

Valeriy Mykolaiovych Yashchuk
Department of Experimental Physics
Faculty of Physics
Yuliya Heorhiivna Terentyeva
Department of Experimental Physics
Faculty of Physics

Departments

The following departments are involved in teaching the above discipline

Department of Experimental Physics
Faculty of Physics
Department of Experimental Physics
Faculty of Physics