Fundamentals of optoelectronics
Course: Cartography, Geographic information systems, Earth remote sensing
Structural unit: heohrafichnyi fakultet
Title
Fundamentals of optoelectronics
Code
ОК 7.
Module type
Обов’язкова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2022/2023
Semester/trimester when the component is delivered
3 Semester
Number of ECTS credits allocated
3
Learning outcomes
Know:
The main types of optical phenomena. Content of the basic laws of wave optics. Basic photometric quantities; basic laws of geometric optics. Peculiarities of the unity of regularities of oscillatory and wave processes of various nature PR02
Be able:
Apply the laws of wave and geometric optics to describe optical phenomena. Experimentally investigate, qualitatively and quantitatively evaluate the main optical phenomena. Conduct research and measurement of object parameters; to have the methodology of measurements and processing of results. Calculate physical quantities according to analytical expressions PR02 PR07
Communication and autonomy
Demonstration of knowledge, abilities and skills PR02 PR07
Performing independent work PR02
Form of study
Full-time form
Prerequisites and co-requisites
Successful study of the disciplines of the previous academic semesters of the specified educational and professional program, in particular, higher mathematics, introduction to geoinformatics, topography with the basics of geodesy.
Course content
The program of the academic discipline consists of the following content modules:
1. Fundamentals of wave optics.
2. Basics of photometry and geometric optics.
The main tasks of the academic discipline:
– knowledge of basic optical phenomena; content of the basic laws of wave optics; basic photometric quantities; basic laws of geometric optics; unity of regularities of oscillatory and wave processes of various nature;
- the ability to apply the laws of wave and geometric optics to describe optical phenomena; experimentally investigate, qualitatively and quantitatively evaluate the main optical phenomena; generalize and specify the methods of researching the physical condition of objects; conduct research and measurement of object parameters; to have the methodology of measurements and processing of results; mastering the methods of analysis of physical phenomena; developing the ability to calculate physical quantities using analytical expressions; developing the ability to use mathematical apparatus to solve certain physical problems.
Recommended or required reading and other learning resources/tools
1. Experimental optics: teaching. manual / Oleg Kushnir, Yuriy Korchak, Lev Lutsiv-Shumskyi, Serhiy Rykhlyuk. - Lviv: Lviv. national University named after I. Franka, 2009. - 465 p.
2. Elements and components of electronic devices: tutorial. for students / M. D. Matviykiv, B. S. Vus, O. M. Matviykiv. – Lviv: View of Lviv. polytechnics, 2015. – 496 p.
3. Optics: education. manual / Viktor Makhnii, Mykhailo Berezovskyi, Oksana Kinzerska; for sciences ed. Prof. V. P. Makhnia. – Chernivtsi: Druk Art, 2018. – 335 p.
4. V. M. Prokopets, M. V. Yakubovskyi. Measurement of refractive indices of water and aqueous solutions by the method of ellipsometry // Technical regulation, metrology, quality, information and transport technologies. – Odesa, 2020. – P. 82–84.
Planned learning activities and teaching methods
Lectures, laboratory work, written control work, tests, defense of completed independent work, assessment.
Assessment methods and criteria
- current (semester) assessment (grade for laboratory work (minimum grade 24, maximum 40; control papers (6–10); independent work (5–10));
– final (final) assessment in the form of credit (assessment for theory knowledge (minimum 12, maximum 20 points); assessment for the practical part (laboratory work) (13-20)).
For students who scored a total of less points than the critical calculation minimum - 35 points, it is necessary to pass an additionally completed individual complex task for admission to the final control form.
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Oksana
Petrivna
Dmytrenko
Department of Physics of Functional Materials
Faculty of Physics
Faculty of Physics
Departments
The following departments are involved in teaching the above discipline
Department of Physics of Functional Materials
Faculty of Physics