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Fundamentals of Optoelectronics

ОК 26

Обов’язкова дисципліна для ОП

First

2022/2023

5 Semester

4

The student must know: Maxwell equation system and boundary conditions. The main properties of electromagnetic waves. Dispersion properties of media and dispersion relations of Kramers-Kronig. The main regularities of processes of absorption and light emission in solids. Features of light propagation in layered media. Photovoltaic effects in semiconductors. Electro-optical effects in liquid crystals. Features of light propagation in waveguides and optical fibers.

Full-time form

The educational discipline "Basics of optoelectronics" is based on the cycle of disciplines of professional and practical training, in particular, "Physics," "Differential equations," "Computer electronics," "Semiconductor electronics."

Physical phenomena, which are the basis of the work of optoelectronic devices. Optical properties of semiconductors. The main characteristics of electromagnetic radiation. Physical processes occurring during the interaction of electromagnetic radiation with various media (semiconductor crystals, photon crystals). Photovoltaic phenomena. Coherent and non-coherent sources and receivers of radiation. Emitting processes in solids. Methods of radiation registration, principles of photoelectric transformation, main types of photodetectors, transportation and processing of optical radiation. Fiber optic communication lines, flat waveguides, principles of integral optics. Interaction of light with modulation environments. Optical signal control methods. Optical memory. Optical information display methods. Optical processing of information.

1. Л.А.Косяченко. Інтегральна оптоелектроніка та волоконна оптика. К.: 2008. 2. А.І.Іванюк, П.А.Коротков. Сучасні фотоприймачі слабких сигналів. К., 2003. 3. Handbook of Laser and Optics. Trager Editor. Springer. 2007. 4. J.A. Krishnaswamy, P.C. Ramamurthy, G. Hegde. Modelling and Design of Nanostructured Optoelectronic Devices: Solar Cells and Photodetectors. Springer. Kindle Edition. 2022.-477p. 5. T.K. Gangopadhyay, P.Kumbhakar, M.K. Mandal. Photonics and Fiber Optics. Foundations and Applications. CRC Press. 2019.-320p. 6. M. Shkir, A.K. Kausik, S.AlFaify. Nanomaterials for Optoelectronic Applications. CRC Press. 2021.-291p. 7. A. Rahimi-Iman. Semiconductor Photonics of Nanomaterials and Quantum Structures: Applications in Optoelectronics and Quantum Technologies (Springer Series in Solid-State Sciences Book 196) 1st ed. 2021.-297p.

Lectures, individual independent work.

- Semester evaluation: The academic semester has three content modules: content module 1 (ЗМ1) includes topics 1-5, content module 2 (ЗМ2) includes topics 6-10, content module 3 (ЗМ3) includes topics 11-18. - final evaluation (in the form of an exam): exam form - written and oral. The examination ticket consists of 2 questions; each question is rated from 0 to 20 points. In total, you can get from 0 to 40 points for the exam. The condition for achieving a positive assessment for the discipline is to receive at least 60 points, while the score for the results of training 2 [skill] and 4 [autonomy and responsibility] cannot be less than 50% of the maximum level (15 and 5 points respectively), the score for the exam cannot be less than 24 points. - conditions of admission to the exam: the condition for admission to the exam is the student's receipt in total not less than the critical calculation minimum of 36 points for the semester.

Ukrainian