Fundamentals of Nanoelectronics Technologies

Major: Applied Physics and Nanomaterials
Code of subject: 6.105.02.E.099
Credits: 3.00
Department: Applied Physics and Nanomaterials Science
Lecturer: PhD. Laba Hanna Petrivna
Semester: 8 семестр
Mode of study: денна
Learning outcomes: - knowledge: principles of electronic theory of condensed materiales, thermal disordering; types of structural disorder; analytical representation of topological and energy disorders; -skills: analyzing of the structural factors obtained by X-ray and neutron diffraction, calculating of thermodynamic parameters of amorphous state.
Required prior and related subjects: - prerequisites , molecular physics, thermodynamics and statistical physics, solid state physics, probability theory; - korequisites: physics of quantum-dimensional systems.
Summary of the subject: Order and disorder. Types of disorder. Short- and long-range orders. Disorder of substitution, disorder of spins topological disorder. Crystall and amorphous metals: comparative characteristics. Methods of manufacturing amorphous alloys. The prospects and the application of amorphous alloys. Structure factor. Dependence of the structure factor on density fluctuations. Binary function of distribution. Electronic, phonon and spin excitations in crystals and amorphous structures. Two-level system in amorphous solids. Anderson localization. Thermodynamic properties of ferromagnets. Heisenberg model. The average magnetization. The critical temperature. Spin glass.
Assessment methods and criteria: • flow control : written reports from seminars, oral examination, protection of reports and selfstudy works. • final control: credit.
Recommended books: 1. Мотт Н., Девис Д. Электронные процессы в некристаллических веществах. -М.:Мир, 1982 -662с. 2. Сидоренко С.І., Васильєв М.А., Білоус М.В. Будова рідких, аморфних та кристалічних матеріалів. Миколаїв: Вид. УДМТУ, 1999. -286с. 3. Киттель Ч. Введение в физику твердого тела. -М.: Наука, 1982. -520с. 4.Займан Дж. Модели беспорядка -М. Мир, 1982 -256с. 5. Шпак А.П., Куницкий Ю.А., Карбоский В.Л. Кластерные и наноструктурные материалы - Киев, Академпериодика, 2001 - 988с.