As a result of studying the module students should:
1) to know:
- the properties of semiconductors in the area of laser radiation;
- the properties of structural materials in the laser treatment area;
- the place of laser technology in typical microelectronics technological processes;
- the basic technological operations of industrial and micro-processing of materials with the use of lasers;
- the technical facilities and capabilities of laser technology at the laboratory and industrial level;
- the trends in the development of laser industrial and microtechnology;
- to understand the mechanisms of interaction of laser radiation with substances.
2) to be able to:
- explain the mechanisms of interaction of photonic fluxes and laser radiation with matter and living tissue;
- justify the effects of photon fluxes on physical objects;
- develop and put into practice photonic devices, test systems, photonic energy systems and laser medical equipment.

- Prerequisites: Analytical and numerical research methods;
- Co-requisites: Plasmonics.

Physical basics, principles and methods of optical signal control in photonic devices. Theoretical fundamentals of photonics as an interdisciplinary vector of modern research in the field of modern optics, spectroscopy and electronics, as well as methods of photonics and quantum optics. The objective of studying the discipline is to familiarize the graduate students with the variety and features of the use of theoretical and practical methods of research of modern photonics and quantum optics; methods of modeling and calculation of basic parameters and characteristics of nanostructured materials, nanoelectronic components and devices based on them; study of various fields of application of photonics tools; acquaintance with the principles of modern measuring equipment used for solving various scientific and technical problems of modern optics, photonics and nanoelectronics.

1. Bobytskyi Ya.V. Laser technologies. Part 1: textbook / Bobytskyi Ya.V., Matviishyn H.L. - Lviv: Lviv Polytechnic Publishing House, 2015. - 320 p.
2. A. Sennaroglu. Photonics and laser engineering: principles, devices and applications // McGraw-Hill. 2010.
3. H.S. Nalwa. Handbook of Advanced Electronic and Photonic Materials and Devices: Semiconductors // Vol.1, Academic Press. 2001.
4. L. Pawlowski. The science and engineering of thermal spray coatings // John Wiley & Sons, 2008.
5. C.C. Lee (Ed.) The Current Trends of Optics and Photonics // Vol.129. Springer. 2014.
6. Y.S. Zhao (Ed.) Organic Nanophotonics: Fundamentals and Applications. Springer // 2014.

• Current control (30%): oral examination, written test
• Final control (70%): test