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Fundamentals of physical electronics

ВК 2.01

Вибіркова дисципліна для ОП

First

2021/2022

6 Semester

3

The student receives training sufficient for further study in the educational program in the specialty Applied Physics and Nanomaterials (specialization Physical Electronics), independent study of relevant scientific literature, solving typical problems from this field of science.

Full-time form

Before studying the discipline "Fundamentals of Physical Electronics", it is necessary to undergo preparation and pass exams/credits in the following disciplines: • Higher mathematics (Mathematical analysis, Differential equations, Theory of functions of a complex variable, Mathematical physics). • General physics (Mechanics, Molecular physics, Electricity and magnetism, Optics, Atomic physics). • Theoretical physics (Thermodynamics and statistical physics, Electrodynamics). • Oscillations and waves.

The discipline program studies physical phenomena that accompany the movement of charged particles in gas and plasma and underlie the operation of many electronic devices. The discipline contains two sections. The first chapter studies a variety of elementary processes that take place during the interaction of particles in an ionized gas, methods of their theoretical and experimental research. In the second chapter, gas discharges, their classification, conditions of development and maintenance of various types of discharge, physical processes accompanying them and areas of application of discharge plasma are studied.

1. О.Мотожима, В.І.Муратов, О.О.Шишкін. На шляху до термоядерної енергетики. Харків, Основа, 1994. 2. С.М.Левитський. Фізична електроніка. К.: ВПЦ “Київський університет”, 2005. 3. Earl Wadsworth MacDaniel. Collision phenomena in ionized gases. - New York.: Wiley, 1964. 4. Yu. P. Raizer. Gas Discharge Physics. –Berlin: Springer, 1995. - 310 с. 5. M. Howatson. Introduction to Gas Discharges, 2nd Ed., Pergamon International Library, 1976. -244 pp. 6. Boris M. Smirnov. Theory of Gas Discharge Plasma. - Springer Cham.- https://doi.org/10.1007/978-3-319-11065-3. 7. К. Simonui. Phusicalische electronics. Budapest: Akademiai, Kiado, 1972. 8. A A Harms, D R Kingdon;K F Schoepf;G H Miley. Principles of Fusion Energy. - World Scientific Publishing Company, 2000. -308 p.

Lectures, final control work, tasks for the work out of classes, final examination

Control works, tasks for the works out of classes, answers at the final examination are evaluated. The contribution of the different components into the final mark under the condition of successful preparation of all the tasks is: knowledge – up to 50%, scills – up to 35%, communication – up to 5%, autonomy and responsibility – up to 10%.

Ukrainian