Specialty 175 Information and measurement technologies
Bachelor’s Educational program: Engineering of optical, information and laser systems
Information technology based on light will dominate the 21st century. Light played a key role in technology in the last century, but in this century it will dominate information technology and industry.
The development of optical and lighting technologies is accelerating at an amazing rate, and companies need professionals who understand the ins and outs of this industry.
Autonomous cars require computer vision and lidar (light detection) to navigate busy streets, robotic cameras using machine vision to quickly detect defects and process materials, key infrastructure networks use fiber optic systems to communicate at speeds over 1 terabit /sec. Lasers are used for scanning architectural objects, cutting and manufacturing various objects, as well as for delicate surgical operations. If you want to be at the forefront of this technology, then the Opto-Information and Laser Systems (IOLS) Engineering specialization may be just what you are looking for. The program is designed to give you the experience to work in many industries and the ability to shape your future. When you graduate, you’ll have a bachelor’s degree in information technology, photonics and laser engineering. The program offers comprehensive training combined with practical experience in Ukraine and abroad. The study program is adapted from the program of European universities for obtaining double diplomas with the University of Limoges (France). First and foremost, you will receive a solid foundation in programming, mathematics, physics, and optics for further study of specialized topics: optical communications, optoelectronic devices, computer vision, signal and image processing, biomedical applications, quantum computing, and lasers.
Future opportunities
The specialization offered cuts across education, research and many different fields. Your future could be as diverse as developing displays for the next generation of smartphones, developing laser medical equipment, developing banking security systems, information security, the military and, last but not least, software development, IT industry. All this is included in one specialization – IOLS!
Coordination
The graduate department of the IOLS specialization regularly holds consultations with representatives of various industries, both in Ukraine and abroad, in order to monitor changes in trends in the field of IT, general optics, communications, computer vision and displays.
Advantages of the educational institution
Where better to study information technology, programming, photonics and lasers than at KhNURE and the capital of student? Kharkiv! Kharkiv has a thriving high-tech IT sector that makes extensive use of technologies related to optics, as well as important state research institutions in optics, especially lasers. Are waiting for you 🙂
Master’s Educational program:
1. Photonics and optoinformatics
2. Laser and optoelectronic engineering
If you want to get a modern specialty that combines IT technologies, photonics, optoelectronics, then we are waiting for the “Photonics and Optoinformatics” specialty. The program is designed to train specialists who specialize in programming, Embedded systems, optical and quantum technologies of transmission, recording and processing of information, optical and quantum systems of artificial intelligence, the use of laser systems of high-intensity ultrashort pulses, femtotechnologies of photonics and optoinformatics, laser medicine and biophotonics.
The educational program “Laser and optical-electronic engineering” prepares qualified specialists to work with laser equipment in any modern high-tech field of application. Laser technologies are one of the “end-to-end technologies” used in various fields of industry and medicine, IT technologies, military equipment, telecommunications, information protection systems, which allow for the wide use of new materials and additive technologies, to automate process processes, while increasing their productivity , providing energy saving and environmental cleanliness, which the world strives for today.
During their studies, students have the opportunity to participate in a joint educational program with the University of Limoges (UNILIM) (Limoges, France). The second year of study with participation in the program takes place at the University of Limoges. After graduation, students have the opportunity to obtain two diplomas of higher education: the master’s degree of the University of Limoges and the master’s degree of Khnoure, such an opportunity is only available when studying in the directions “Photonics and Optoinformatics” or “Laser and Optoelectronic Engineering” of the program. Do not hesitate, get a modern European education. Students are also given ample opportunities for internships and studies at the world’s leading universities as part of academic mobility programs.
Specialty 105 Applied physics and nanomaterials
PhD Educational and scientific program: Applied physics and nanomaterials
Since 2023, the PFEE department has been specializing in the training of doctors of philosophy in the specialty 105 Applied physics and nanomaterials. If you are ambitious and want to connect your life at the highest level with physical phenomena, optics, electronics, lasers, then choose a topic of scientific research, a scientific supervisor and join us!
Topics of scientific research:
– research of physical processes of generation and transformation of the electromagnetic field in devices and systems in the range from radio waves to X-ray radiation;
– creation and development of new devices, information and control systems and hardware complexes in the field of physical and geophysical research;
– physical foundations of the technology of new types of materials (magneto-dielectrics, semiconductors, plasma, nanomaterials, etc.) for the development of new devices (elements) for various purposes;
– physics of processes in devices, installations, hardware complexes and in information and control systems;
– physics of contact and volumetric phenomena and solid-state devices based on them;
– physical processes, in particular electromagnetic, optoelectronic, thermoelectric, photoelectric and other processes in medical and biological devices and systems;
– electronic devices, in particular quantum devices;
– theory of electromagnetic waves and oscillations, diffraction, interference, scattering, polarization of waves, fields and waves in open systems, propagation of waves in multilayered and heterogeneous structures and superlattices, research of other types of wave processes;
– physical foundations of communication systems, control, radio astronomy, radio navigation and radar;
– interaction of the electromagnetic field with matter, nonlinear and parametric phenomena during the interaction of electromagnetic radiation with material environments;
– electromagnetic waves in the ionosphere, near-Earth space, electromagnetic waves in the active media of quantum, vacuum, electronic and semiconductor generators and amplifiers;
– research and mathematical modeling in electrodynamic systems and environments;
– radiophysical methods of remote environmental sensing and non-contact measurements, radiophysical methods in ecology, astronomy and medicine;
– theory and practice of receiving and processing signals; inverse problems of electromagnetic field theory;
– electronic and ion radiation of solid bodies and liquids; physical phenomena on the surface that determine the emission properties of solids and liquids;
– elementary and collective processes of scattering, ionization, excitation in gases and gas discharges;
– physical foundations of research methods based on the use of electronic and ion emission;
– interference and diffraction of light, formation of an optical image, Fourier optics, optics of a scattering medium, ray optics, characteristics of optical devices and optical measurement methods, optoelectronics;
– optical recording of information, photochemical action of light, processes of recording optical information on recording media containing silver and without silver. Optical basics of holography, dynamic holography, laser photochemistry and biochemistry;
– crystal optics, optics of thin layers, molecular optics, quantum and statistical optics, optics of quantum transitions;
– optical spectroscopy (atomic-molecular spectroscopy, solid-state spectroscopy, luminescence, optical properties of superconductors);
– optics of ultrashort pulses, nonlinear optics, interaction of laser radiation with matter, physical aspects of the use of lasers, holographic diffraction elements, methods and processes of control of laser radiation parameters.