Physics of Condenced State and Quantum-Dimensional Systems

Major: Applied Physics and Nanomaterials
Code of subject: 8.105.00.M.032
Credits: 3.00
Department: Applied Physics and Nanomaterials Science
Lecturer: D.Sc. Lukiyanets B.A.
Semester: 4 семестр
Mode of study: денна
Learning outcomes: 1. Ability to demonstrate systematic knowledge of modern research methods in the field of applied physics and nanomaterials. 2. Ability to demonstrate in-depth knowledge in the chosen field of research. 3. Ability to demonstrate an understanding of the impact of technical solutions in the social, economic and social context. 4. Search, analyze and critically evaluate information from various sources. 5. Apply knowledge and understanding to solve problems of synthesis and analysis of elements and systems characteristic of the chosen field of research. 6. Apply a systematic approach, integrating knowledge from other disciplines and taking into account non-technical aspects, when solving theoretical and applied problems of the chosen field of research. 7. To combine theory and practice, as well as to make decisions and develop a strategy for solving scientific and applied problems, taking into account universal values, social, state and industrial interests. 8. Evaluate the feasibility and feasibility of new methods and technologies in the synthesis of nanomaterials and solving problems of applied physics.
Required prior and related subjects: Previous disciplines: - Related and subsequent disciplines Physics of Supramolecular Structures and Devices.
Summary of the subject: The discipline has two important components. In the first part of the course the peculiarities of liquid substance control, peculiarities of nanostructuring at liquid-solid phase transitions are described. This is all very important in the synthesis of nanoparticles and nanostructures. And then, in the second part, the properties of nanosized particles based on the energy spectrum are described in the language of quantum physics. Quantum wells, wires, points, superlattices, heterostructures, etc. are considered.
Assessment methods and criteria: Current control (40%): oral questioning, presentations at seminars, tests, individual written work. - The final test (60%): exam.
Recommended books: 1. Zenon Hotra, Ivan Hryhorchak, Bohdan Lukiianets, Innesa Bolshakova, Pa-vlo Stakhira, Leonid Politanskyi. Nanoelektronika / za red Hotry Z. Yu. – Lviv: Liha-Pres, 2009. – 344 s. 2. Zenon Hotra, Ivan Hryhorchak, Bohdan Lukiianets, Viktor Makhnii, Serhii Pavlov, Leonid Politanskyi, Ezhy Potenski. Submikronni ta nanoroz-mirni struktury elektroniky: Pidruchnyk. – Chernivtsi: Vyd-vo ta druk. «Tekhnolohichnyi Tsentr». 2014. - 839 s.