Physics of Quantum-Dimensional Systems

Major: Applied Physics
Code of subject: 7.105.01.O.005
Credits: 5.00
Department: Applied Physics and Nanomaterials Science
Lecturer: Dr. Science Professor. Lukiyanets Bohdan
Semester: 1 семестр
Mode of study: денна
Learning outcomes: Mastering theoretical foundations of effects in low dimensional structures based on quantum mechanics and statistical physics to facilitate a more rational solution of practical problems of nanoelectronics
Required prior and related subjects: • Statistical Physics and Thermodynamics • Quantum Mechanics • Electrodynamics and Field Theory • Solid State Physics
Summary of the subject: Energy spectrum and density of electronic states in quantum structures. Quantum transport. Anderson localization. Galvanomagnetic phenomena. Quantum Hall Effect. Fractional quantum Hall effect. Optical properties of quantum wells and superlattices. Fano rezonanse. Quantum interference and Aharonov-Bohm effect. Resonant tunneling
Assessment methods and criteria: oral examination during the workshops, evaluation of home practical tasks, control work (30%) final control (70%, test), written-oral form (70%)
Recommended books: 1. Davies J.H. The Physics of Low-Dimensional Semiconductor. An Introduction. - Cambridge University Press. Cambridge. 1998. 2. Vorobev L.E., Ivchenko E.L., Fyrsov D.A., Shalygin V.A. Optical properties of nanostructures.- 2001, St. Petersburg: Nauka. - 188 p. (in russian) 3. Gotra Z., Grigorchak II, BA Lukiyanets etc. Nanoelectronics. L .: League-Press, 2009. - 340 p. (in ukrain)