Major: Nanoelectronics: Quantum Technologies and Materials
Level: Master’s degree programme
Duration of training: 2 years
Mode of study: Full-time / onsite
Language of study: Russian
Description of the educational programme
Nanotechnologies are the core of a new technological system and the material base for the development of digital technologies and artificial intelligence. The transition to the nanolevel in electronics means that ideas about the structure and principles of operation of electronic systems, based on the principles of classical physics, must be supplemented or replaced by the laws of quantum mechanics. In this academic programme, such transition is ensured by the fact that, along with modern courses on micro- and nanoelectronics, much attention is paid to electronic devices as quantum objects, their description by analytical and numerical methods, the use of achievements in condensed matter physics, quantum informatics and physics of nanoscale systems. Mastering this programme will create the basis for the demand for its graduates over the next decades.
Main programme-specific classes:
Materials for Functional Electronics
Solid-state Smart Sensors
Digital Electronics Components
Microprocessor-based Systems
Quantum Static Methods of Nanoelectronics
Non-conventional Materials for Solid-state Electronics
Atomistic Modelling of Nanoelectronics Materials
Quasi-classical Models of Electronic Devices
Nanoelectronics in Biology and Medicine
Quantum Information and Quantum Computing
Radiation Technologies in Electronics
Methods of Quantum Materials Science
Low-dimensional Structure Electronics
Physics of Nanoscale Systems
Relevant Problems of Modern Electronics and Nanoelectronics
Mathematical Modelling of Devices and Systems
CAD in Electronics
Introduction to Quantum Computing
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Major: Environmental Safety
Level: Master’s degree programme
Duration of training: 2 years
Mode of study: Full-time / onsite
Language of study: Russian
Description of the educational programme
Each undergraduate performs work in the direction associated with their subsequent professional occupation.
Participation in international programs: with the Lappeenranta University of Technology (Finland, double degree), Radboud University in Nijmegen (Netherlands, training included), University of Shanghai Cooperation Organization (joint university of SCO countries, training included);
Work in scientific groups with developed international contacts, full time participation in foreign scientific conferences, participation in international and national scientific projects, the possibility of training at leading international laboratories.
Professional competencies of the graduates:
Biological and chemical objects and their impact on the environment;
Methods and instruments for monitoring pollution of gas, solid and liquid components of production and the environment;
Waste disposal and recycling systems.
Methods and means of protecting the environment from human impact.
Areas of scientific interests:
theory of catalytic and sorption processes; development of new types of nanostructured inorganic functional materials for industrial chemical reactions, purification of natural and industrial wastewater, extraction of valuable components;
development of technologies for purification of natural and industrial wastewater, industrial waste gases, disposal of solid waste;
environmental management and environmental auditing in the interests of sustainable economic development.
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Major: Physical and Chemical Mechanics of Continuous Media
Level: Master's degree programme
Duration of training: 2 years and 6 months
Mode of study: Full-time / onsite
Language of study: Russian
Description of the educational programme
Graduates of the programme are specialists in the field of mathematical models of mechanics of multi-component environments, fast-moving physical-chemical processes; development of new algorithms and computer programs for scientific research and applied purposes. The program is implemented together with VNIITF ROSATOM and the students carry on scientific activity under the supervision of leading scientists of VNIITF ROSATOM.
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Major: Fiber and Laser Optics
Level: Master's degree programme
Duration of training: 2 years and 6 months
Mode of study: Full-time / onsite
Language of study: Russian
Description of the educational programme
Graduates of the programme are highly qualified scientists and technical workers capable to solve actual problems of modern society based on Physics, Mathematics, Computer Technology and Theoretical Physics. Students are engaged in research activity within the framework of the Government Institute of Electrophysics of the Ural Branch of the Russian Academy of Sciences. The lectures are given in Russian, but English is necessary for successful graduation. Students get skills to work with full-text facilities research publications, analytical work, presentation of research results through publications and conferences.
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Major: Fiber and Laser Optics
Level: Master's degree programme
Duration of training: 2 years and 6 months
Mode of study: Full-time / onsite
Language of study: Russian
Description of the educational programme
Graduates of the programme are highly qualified scientists and technical workers capable to solve actual problems of modern society based on Physics, Mathematics, Computer Technology and Theoretical Physics. Students are engaged in research activity within the framework of the Government Institute of Electrophysics of the Ural Branch of the Russian Academy of Sciences. The lectures are given in Russian, but English is necessary for successful graduation. Students get skills to work with full-text facilities research publications, analytical work, presentation of research results through publications and conferences.
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Major: Statistical and Computer Modelling
Level: Master's degree programme
Duration of training: 2 years and 3 months
Mode of study: Full-time / onsite
Language of study: Russian
Description of the educational programme
Graduates will learn how to:
formalize the initial problem, build a statistical model and check its adequacy;
effectively use statistical and mathematical packages;
create efficient computer implementations of statistical methods for solving practical problems;
develop known and create new statistical methods of data processing.
The field of professional activity of graduates who have mastered the master's programme includes the activities of such organizations as:
Federal State Statistics Service and its territorial bodies;
subjects of official statistical accounting;
state and municipal administration bodies;
academic, departmental and non-state scientific organizations;
international and non-governmental organizations established on the basis of international agreements that collect, process, systematize and summarize statistical data of a social, economic, humanitarian and other nature in the areas within their competence;
organizations of various types of activities and forms of ownership that collect, process, systematize and summarize mass information about the state and development of natural, humanitarian (social, economic, demographic and others), technical and medical processes and phenomena, their statistical analysis and modelling.
Main programme-specific classes:
Regional Statistics
Statistics of Stationary Processes
International Statistics
Decision-making Theory
Research on Statistical Economic Models Using the 1C System
Research on Statistical Technical Models Using the 1C System
Analytical Methods for Solving Multicriteria Problems
Parallel Programming of Statistical Problems
Statistical Methods and Forecasting Models
Modern Problems of Statistical Modelling
Introduction to the 1C System Configuration
Application Packages
Theory of Queuing Systems
Applications of Econometrics in Engineering, Economics and Logistics
Applied Regression Analysis
Statistical Methods in Risk Assessment
Multivariate Data Analysis
Modern Mathematical Models of Economic Theory
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Major: Non-classical Equations of Mathematical Physics
Level: Master's degree programme
Duration of training: 2 years
Mode of study: Full-time / onsite
Language of study: Russian
Description of the educational programme
Realities of contemporary times increasingly require from a professional not specific knowledge in individual disciplines, but the ability to approach problem solving in a comprehensive manner, using methods and techniques of various spheres of human activity. In this regard, the special role of mathematics as a universal means of analyzing data from any subject area should be noted. That is why the academic programme 01.04.01 Mathematics is popular and in demand. Graduates of the Department of Equations of Mathematical Physics are prepared for practical and research work in various fields of activity: expert and analytical institutes and centres, specialized research institutes, universities, industrial enterprises, trade and small business organizations, i.e. wherever knowledge of mathematics, the ability to build and use mathematical models, create and apply computer technologies, information processing and control systems are required. Thus, graduates of the department will be able to continue their professional careers both in academic science and in the field of applied research and management.
Main programme-specific classes:
Function Spaces and Differential Operators
Computer Technologies in Scientific Research
Mathematical Fundamentals of Artificial Intelligence
Sobolev Type Linear Equations
Numerical Methods for Solving Problems of Mathematical Physics
Stochastic Differential Equations
Stability of Solutions to Sobolev Type Equations
Semilinear Sobolev Type Equations
Initial-Final Problems for Sobolev Type Equations
Introduction to the Theory of Riemannian Manifolds
Sobolev Type Equations on Manifolds
High Order Sobolev Type Equations
Sobolev Type Equations on Graphs
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01.04.01 Mathematics (Non-classical Equations of Mathematical Physics)
01.04.05 Statistics (Statistical and Computer Modelling)
03.04.01 Applied Mathematics and Physics (Fiber and Laser Optics)
03.04.01 Applied Mathematics and Physics (Physical and Chemical Mechanics of Continuous Media)
05.04.06 Ecology and Use of Natural Resources (Environmental Safety)
11.04.04 Electronics and Nanoelectronics (Nanoelectronics: Quantum Technologies and Materials)
На площадке Южно-Уральского государственного университета успешно завершилась выставка инновационной техники от ключевых индустриальных партнёров Передовой инженерной школы «Сердце Урала» — автомобильного завода «Урал» и АО «Кургандормаш», которая проходила с 24 июня. Целый месяц легендарные машины становились частью университетской жизни. Мероприятие вызвало широкий общественный резонанс, собрав тысячи посетителей, включая абитуриентов, студентов, жителей города и представителей СМИ.
How does a lie detector work? Vladimir Kodkin, Professor of the SUSU Department of Automated Electric Drive (who once took a polygraph test himself), answers.
The principles of operation of a lie detector are based on the fact that the human body reacts to attempts to deceive, causing changes in the functioning of internal organs.
If we consider a person as a complex structure, the polygraph partly intersects with the principles of diagnosing the human condition that I previously studied and conducted research on.