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Seminar on Nanooptics and Nanomagnetism

ВК 4.06

Вибіркова дисципліна для ОП

Second

2023/2024

3 Semester

5

The student should know: 1. Basic concepts of nanooptics and nanomagnetism 2. General principles of physics of phenomena at the nanoscale in optics and magnetism. 3. Methods of experimental study of nanooptical and nanomagnetic systems, including optical microscopy methods. 4. Mechanisms of interaction of light with nanomaterials and nanostructures, including absorption, scattering and reflection of light. 5. Examples of construction of nanooptical laser systems in various branches of science and technology. 6. Methods and approaches to solving the main problems arising in nanooptics and nanomagnetism. The student should be able to: 1. Apply the basic concepts and methods of physics of magnetism to solving physical problems. 2. Apply the basic concepts and methods of nanooptics to solving physical problems. 3. Independently use in educational and scientific work knowledge of the laws and mechanisms of physical effects in nanooptics and nanomagnetism and their applications.

Full-time form

The academic discipline "Seminar on Nanooptics and Nanomagnetism" is based on a cycle of disciplines of professional and practical training of a bachelor, namely: "General Physics", "Solid State Physics", "Theoretical Physics", "Differential and Integral Equations", "Micro and Nanoelectronics" and disciplines of the OR "Master": "Polarization Matrix Optics", "Nanomagnetism", "Computer Technologies in Physical Experiments", "Optical Spectroscopy", "Magneto-Optics and Photomagnetism", "Problems of Modern Optics".

The educational component "Seminar on Nanooptics and Nanomagnetism" covers topics such as optics of nanostructures, photonics, plasmonics, nanomagnetism and spectroscopy of nanomaterials. Students will be able to expand their knowledge, skills and understanding, which are necessary for further work in the field of nanotechnology. The course also includes presentations and discussions of the results of students' own research as part of their master's thesis.

1. A.P. Guimaraes, "Principles of Nanomagnetism", Series: NanoScience and Technology, Springer, 2009. 2. V.V. Mitin, V.A. Kochelap, M.A. Stroscio. Introduction to Nanoelectronics – Science, Nanotechnology, Engineering, and Applications. – Cambridge University Press, 2008. – 329 pp. 3. Д. Д. Шека, Основи магнетизму: Методичний посібник для студентів – К.: КНУ, 2012, 74 с. 4. О. В. Третяк, В. А. Львов, О. В. Барабанов, Фізичні основи спінової електроніки, К., 2002. 5. Hohenester U. Nano and Quantum Optics: An Introduction to Basic Principles and Theory. Springer, 2020 – p. 655

Lectures. Practical, laboratory. Independent work.

Final assessment (in the form of a credit): the form of credit is written-oral. In total, for the test, you can get from 0 to 40 points. The condition for achieving a positive grade for the discipline is to get at least 60 points, while the score for the test cannot be less than 24 points. Conditions for admission to the final test: the condition for admission to the test is that the student receives a total of not less than the critical minimum for the semester - 36 points.

Ukrainian