In the first year of study, student chooses three courses from the first year of their chosen domain (Applied physics).
In the second year, student chooses three courses from the group of all elective courses at second year of doctoral academic studies, regardless of the elective domain the course belongs to.
1. YEAR
Elective Block
Code: 3DЕF1I01
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Theoretical lectures will take place in the following areas: Physical characteristics and classification of solid states, crystal lattices, interatomic connections, zonal theory of solid states, electronic states in a periodic crystal, thermal motion of the crystal lattice, transport and optical charecteristics, properties of dielectrics. Semiconductors, electronic transport processes, diffusion and recombination processes. Magnetic properties of solid bodies. Superconductivity.
Code: 3DЕF1I02
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Theoretical lectures will take place in the following areas: Formation and disappearance of particles into a weakly ionized gas. Drift, energy and diffusion of charged particles. Breakdown in gases in the fields of different frequency band. Stable and unstable dissipation. Spark, corona and arched discharge. Solving the kinetic equation in a weakly ionized gas in the presence of an electric field. Physical mechanisms that lead to discharge and which are present in various types of discharge.
Code: 3DЕF1I03
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:The dualism. Electromagnetic nature of light. Interference, diffraction and polarization. The interaction of light and matter. Corpuscular nature of light and other electromagnetic radiation. Photoelectric and Compton effect. Optical instruments. Non-laser and laser light.
Code: 3DЕF1I04
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Types and sources of ionizing radiation, ionizing radiation effects on living and non-living matter, dosimetric quantities and units. Radiation detection and protection. Characteristics and types of non-ionizing radiation and its influence on living organisms.
Code: 3DЕF1I05
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Electric breakdown and discharge in gases. Processes in noble gases, nitrogen and air. Processes on electrodes. Breakdown probability. Breakdown voltage. Electrical breakdown time delay. Analysis of the memory effect in gases based on memory curves.
Specification for the book of courses
Obligatory
Code: 3DNIR1
Number of classes per week:
- Study and research work: 11
ECTS: 30
Course outline:Specification for the book of courses
3. YEAR
Obligatory
Code: 3DNIR2
Number of classes per week:
- Study and research work: 11
ECTS: 30
Course outline:Specification for the book of courses
Code: 3DZR
Number of classes per week:
- Lectures: 0
- Exercises: 0
ECTS: 30
2. YEAR
Elective Block (3 out of 82)
Courses from the chosen domain (Applied Physics)
Code: 3DЕF3I01
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Code:3DЕF3I02
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Medical diagnostics. X-rays and X-ray characteristics and their application in medicine. Radiography and fluoroscopy, mammography, X-ray, computer tomography. Digital Flat Panel X-ray Appliances. The production and the characteristics of ultrasound and its application in medicine. Principle of magnetic resonance, and its application in medical diagnostics. Use of radioisotopes in medical diagnostics and radiotherapy. PET diagnostics. Electrocardiography, Laser application in medicine. Application of radiofrequency and optical radiation in medical diagnostics and therapy. Radiotherapy devices.
Specification for the book of courses
Code: 3DЕF3I03
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Energy bands and carrier concentrations in equilibrium. Effects of a highly doped semiconductor. Transport of charge carriers. Diodes. Silicon bipolar transistors. Bipolar transistors based on heterojunctions. Modeling of bipolar transistors. Field effect transistors based on semiconductor compounds. GaAs MESFETs. Heterojunction Field Effect Transistors (HFETs). MOSFET transistors. CMOS/BiCMOS. SOI and 3D structures. Microwave components. Photovoltaic components. Monocrystalline silicon formation and epitaxial growth. Oxidation and growth of thin films. Diffusion and ion implantation. Photolithography and etching. Integrated devices.
Code: 3DЕF3I04
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Classification and terminology of sensors and actuators. Signal processing. Most important sensor types: magnetical, radiation, thermal, mechanical and chemical. Most important actuator types: linear and rotary electromechanical converters, displays, electrical converters. Interface methodologies and circuits. Integration aspects. Manufacturing techniques and material properties. Applications of sensors and actuators.
Specification for the book of courses
Code: 3DЕF3I05
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:The properties of gases. Molecular phenomena in the gas. Transport processes in gas. The adsorbed gases. Electric currents in gases. Pumping and vacuum pumps. Measuring the low-pressure gas and vapor. Vacuum systems. Vapor deposition. Nitriding. Cleaning surfaces. Plasma metallurgy. Plasma processes in microelectronics.
Groups of courses from all other domains
- Electrical Machines and Transformes - Selected Chapters
- Electrical Machines and Power Converters for Renewable Energy Sources
- Digital Control of Electrical Drives and Power Converters
- Computation of Lightning Overvoltages
- Power Cable Engineering
- Power Quality in Distribution Networks
- Active Distribution Networks and Microgrids
- Digital Processing of Audio Signal
- Digital Circuits and Systems Design
- Embedded Systems Design
- System-on-Chip Design
- DSP Architectures and Algorithms
- Electronic Circuits Testing
- Reconfigurable Systems Synthesis of Filters
- RF Systems Architectures
- Computer Vision
- Ultrasonic Technique
- Measurement and Acquisition Systems
- Industrial Measurement and Information Systems
- Measurement and Information Technologies
- Medical and Bioelectronic Measurement Technique
- Power Devices and Circuits
- Microsensors
- Reliability of Electronic Devices and Microsystems
- Prognosis of the Material Properties
- Advanced Electronic Ceramic Materials
- Software Engineering in Microelectronics
- Solar Systems, Technologies and Devices
- Technology, Design and Characterization of Microsystems
- Reliability Modeling of MOS Devices
- Influence of Radiation on Microelectronic Devices
- Mathematical Methods of Optimization
- Analysis of Numerical Algorithms
- Spectral graph theory
- Highly Efficient Iterative Methods
- Simulation of Industrial Systems
- Mathematical Models in Industry
- Mathematical Foundations of Statistical Learning and Applications
- Design and Analysis of Parallel Algorithms
- Advanced Topics in Fault Tolerant System Design
- Bioinformatics
- Medical Informatics
- Applications of Spectral Techniques for Digital Devices Design
- Advanced Topics in Mobile and Ubiquitous Computing
- Advanced Topics in Computer Graphics
- Advanced Topic in Intelligent Systems
- Advanced Topics in Specialized Information Systems
- Mathematical Fundament of the Game Theory
- Advanced Topics in E-Learning Technologies
- Web Mining and Information Retrieval
- Audio Communications
- Antennas and Propagation
- Applications of Neural Networks in Telecommunications
- Satellite Communication Systems
- RF and Microwave Amplifiers
- Electromagnetic Compatibility and Signal Integrity
- Detection of Signals in Noise
- Communication Algorithms and Applications
- 5G and 6G Mobile Communications
- Information Theory and Source Coding
- Statistical Signal Processing
- Digital Communications Over Fading Channel
- Coherent Optical Telecommunication Systems
- Theory and Applications of Software Radio
- Advanced Modeling Techniques for RF Applications
- Free-space Optical Telecommunications
- Advanced Signal and Data Processing
- Methods for Steady-state Electromagnetic Fields Calculation
- Inverse problems in Electromagnetics
- Bounday Element Method in Electromagnetics
- Digital Control Techniques
- Optimal Control
- Variable Structure Systems
- Distributed Computer Control
- Predictive Control
- Adaptive Control Systems
Obligatory
Code: 3DNIR2
Number of classes per week:
- Study and research work: 11
ECTS: 30
Course outline:Specification for the book of courses
Doctor of Science in electrical engineering and computing