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Modern photometry

ОК11

Обов’язкова дисципліна для ОП

Second

2023/2024

1 Semester

3

Use conceptual and specialized knowledge and understanding of current problems and achievements of selected areas of modern theoretical and experimental physics or astronomy to solve complex tasks and practical problems. Conduct experimental or theoretical research in physics and astronomy, analyze the results obtained in the context of existing theories, make reasoned conclusions (including assessment of the degree of uncertainty) and proposals for further research. Apply modern theories of scientific management and business administration to organize scientific and applied research in the field of physics or astronomy. Develop and apply effective algorithms and specialized software for studying models of physical and astronomical objects and processes, processing the results of experiments and observations.

Know the basics of optical spectrometry, photometry, quantum physics, basic principles of mathematical analysis, differential equations, linear algebra, methods of mathematical physics. Be able to calculate threshold and integral parameters of absorption and emission spectra taking into account weighting functions for various purposes, calculate efficiency coefficients and effectiveness of light and electrical parameters when processing experimental data with one- and multidimensional quantities. Have practical skills in working with computer programs for processing, analyzing and graphically presenting digital data.

The discipline "Modern Photometry" is designed to provide students with knowledge of the basics of technical metrology, to explain the principles of legal metrology, as well as the standardization of products and test methods used by accredited conformity assessment bodies to ensure the uniformity of parameter measurements and the quality of determining the characteristics of lighting products of a wide range of applications.

1. Бичківський Р.В., Столярчук П.Г., Гамула П.Р., Метрологія, стандартизація, управління якістю і сертифікація, Львів: Вид-во Нац. ун-ту «Львівська політехніка», 2004. – 560 с. 2. Тарасова В.В., Малиновський А.С., Рибак М.Ф., Метрологія, стандартизація і сертифікація. Підручник /За заг. ред. В.В.Тарасової. – К.: Центр навчальної літератури, 2006. – 264 с. 3. E. Fred Schubert, Light-Emitting Diodes, 2nd ed. , Cambridge University Press, 2008, 434 pages. 4. Назаренко Л. А., Сорокін В. М., Основи радіометрії та фотометрії, Харк. нац. ун-т міськ. госп-ва ім. О. М. Бекетова, 2014, 352 с. 5. ДСТУ EN ISO/IEC 17025:2019 Загальні вимоги до компетентності випробувальних та калібрувальних лабораторій (EN ISO/IEC 17025:2017, IDT; ISO/IEC 17025:2017, IDT) 6. ДСТУ EN ISO/IEC 17065:2019 Оцінка відповідності. Вимоги до органів з сертифікації продукції, процесів та послуг (EN ISO/IEC 17065:2012, IDT; ISO/IEC 17065:2012, IDT)

Teaching methods: lectures, consultations.

Assessment methods: homework, self-assessment of knowledge through a current express survey. The final grade is based on intermediate grades (60%) and a test (40%).

Ukrainian