Energy and Mass Transfer Processes in Homogeneous and Nanostructured Systems

Major: Applied Physics
Code of subject: 7.105.01.O.002
Credits: 4.00
Department: Applied Physics and Nanomaterials Science
Lecturer: Associate Professor, Ph.D. Ponedilok Hryhoriy W.
Semester: 1 семестр
Mode of study: денна
Learning outcomes: As a result of studying the discipline the master: - will have a holistic fundamental knowledge of the modern theory of energy and mass transfer in structured systems and practical skills of their application; - will have practical skills in applying fundamental laws and relevant mathematical methods to solve practical problems; - understand the physics of phenomena and processes occurring in micro- and nano-electronics devices, features of their manifestation in devices; - will be able to follow modern directions of theoretical and experimental research in this field, evaluate their prospects, choose their own ways of solving current problems of physics and technology.
Required prior and related subjects: Pre-requisites: Quantum mechanics; Statistical physics and thermodynamics; Physics of quantum-sized systems. Co-requisites: Thermo- and photoelectric phenomena in solids; Nonequilibrium thermo¬dynamics and chemical kinetics; Physics and technology of nanosystems.
Summary of the subject: The course is devoted to the systematic study of the phenomenon and physical features of the phenomena of energy and matter transfer in crystals and crystalline alloys, metal melts, amorphous alloys, electrolytes, and the gaseous medium. The experimentally observed features of transfer processes in mesoscopic and nanostructured systems are described in detail. A detailed description of physical models and the corresponding mathematical apparatus for describing the phenomena of mass and energy transfer in homogeneous, spatially inhomogeneous, and meso- and nanostructured systems are given. An overview of the main modern directions of experimental and theoretical research and fundamental problems that need to be addressed as a matter of priority is given.
Assessment methods and criteria: Differentiated test - current control (20 points); - evaluation of independent work (20 points), - tests (40 points), - test control in VNS (20 points); There are 100 points in total
Recommended books: 1. Бокштейн Б.С. Бокштейн С.Э. Жуховицкий А.А. Термодинамика и кинетика диффузии в твердых телах. .— М: «Металлургия», 1974. — 280 с. 2. Lienhard J.H. A heat transfer textbook — Phlogiston Press, Cambridge, 2003. 3. Дмитриев А.С. Введение в нано-теплофизику. --- М: БИНОМ. Набора-тория знаний, 2015, . 750 с. 4. Velazques J.L. The porous medium equation. Mathematical theory — Dpto. de Matematicas Univ. Autonoma de Madrid 28049 Madrid, Spain. 5 Лыков А.В. Теория теплопро¬водности — М: Высшая школа, 1967. 599 с. 6. Imry Y. Introduction to meso¬scopic physics. — Oxford university press, 2002, 304 p. 7. Ксенжек О.С. и др. Электро-химические процесси в системах с пористыми матрицами. Киев, «Вища школа», 1983. 8. Учайкин В.В. Автомодельная аномаль¬¬ная диффузия и устойчивые законы. — УФН, т.173, №8, стр. 847-876, 2003. 9. Lars Musland Theory and calculations of thermoelectric transport in Hete¬ro¬¬structures. — Department of Physics Faculty of Mathematics and Natural Sciences, Oslo University, 2019.