6B05305 - Physics and Nanotechnology | Al-Farabi Kazakh National University

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6B05305 - Physics and Nanotechnology

Educational program	6B05305 – Physics and Nanotechnology
Field of education	6B05 Natural Sciences, Mathematics and Statistics
Direction of personnel training	6B053 Physical and Chemical Sciences
Group of educational programs	B054 Physics
EP purpose	The purpose is to prepare competitive specialists, bachelors in the field of physics and nanotechnology with an analytical mindset, capable of working in the field of research, teaching and competently making scientific and technical translations; develop personal qualities to work as a leader of a team of professionals.
Language of education	Kazakh, Russian,English
Volume of the credits	240 academic credits
The awarded academic degree	Bachelor
Learning outcomes	Upon completion of this educational program, students are expected to be able to: Explain physical, chemical and mathematical methods for the study of objects, phenomena and processes for applied and basic research; Apply physico-chemical methods for producing nano-objects and their composites for solving applied problems, as well as methods for describing structures, structures, composition, morphologies; Use fundamental and modern knowledge to solve problems related to identifying the relationship between the structure and properties of macro- and micro-objects; Interpretation modern scientific concepts and theories within the research context in the field of physics and nanomaterials to analyze the results of scientific research; Identify the similarities and differences of world and Kazakhstani science in the field of innovative technology in order to create new functional nanomaterials; Apply modern information technologies to search, store, process and transfer the necessary new scientific and innovative form of activity for experimental and theoretical research to develop and improve methods for the synthesis of nanostructured composite materials using plasma chemical technologies; To practice professional skills in scientific, technical and scientific-pedagogical activities to solve problems in interdisciplinary fields of physics and nanotechnology; Conduct laboratory experiments, as well as analytical and numerical calculations for physical research; To critically evaluate modern scientific concepts and theories in the field of nanomaterials and nanotechnology to determine the object and subject of independent research; Select the appropriate equipment, tools and research methods in accordance with their advantages and disadvantages and apply them to solve problems in a specific subject area; To apply fundamental physical laws to solve industrial, technical and everyday problems; To work as part of an interdisciplinary team, tolerantly perceiving ethnic, religious, social and cultural differences; to form civil and ideological positions; improve social, linguistic and physical training to ensure full compliance with the needs of the professions and society.
For applicants	https://welcome.kaznu.kz/en/education_programs/bachelor/speciality/1795
Academic activity	Academic activity of the EP is carried out: within the framework of existing regulatory documents and methodological recommendations in the field of higher education in the field of physical sciences; as a result of the implementation of regulatory documents regulating the educational and methodological process at the university; generalization and dissemination of new normative legal acts concerning methodological work; current and long-term planning of the educational and methodological work of the university; coordination of the educational and methodological complex of the discipline (EMCD) of the department for compliance with regulatory legal acts, the working curriculum and the educational program; monitoring the provision of the educational process with teaching materials, documenting the results; development of teaching materials; development and implementation of the working curriculum.
Scientific activity	For the implementation of the educational program at the faculty there are laboratories: Laboratories for the course of electricity and magnetism - a total area of 48 m²; Laboratories for the course of atomic physics - a total area of 48 m²; Laboratory of Electrical Engineering and Electronics - total area of 48 m²; The laboratory is equipped with computerized stands, on which laboratory work is carried out with students. Up to 12 students can study at the same time in the laboratory. Laboratory of physics of gas discharge and vacuum technology - the total area of 48 m²; Laboratory of mechanics - the total area of 48 m²; Laboratory of Molecular Physics - total area 48 m²; Optics laboratory - total area 48 m²; Computer classes of the faculty - total area 48 m² Scientific directions of the department of plasma physics, nanotechnology and computer physics: scientific school Intellectual management of electric power systems remote methods (technologies) of studying alternative energy on the example of remote access to the results of research on power plants TOKAMAK-10. theoretical and experimental studies of dusty plasma, the creation of new models of such a plasma, the creation of new technologies based on dusty plasma. application research: plasma technologies; their research and development theoretical and experimental studies of dusty plasma, the creation of new models of such a plasma, the creation of new energy-intensive technologies based on dusty plasma Organization of small-scale production of energy-saving gas-discharge lamps with increased intensity of illumination based on new technology Development of technologies for producing nanostructured oxide semiconductors for a wide range of applications Development of methods for the synthesis of nanostructured materials with luminescent properties. Interrelation of nonlinear electrical, optical and fractal-geometric characteristics of nanostructured semiconductors. Production of nanomaterials by pulsed plasma spraying and their use in production. Development of technology for producing nano- and microglyn from montmorillonite. Production of nanostructured composite materials based on titanium dioxide films and metal nanoparticles and the study of their structure and electronic properties.
International activity	There are agreements with the Scientific Research Institute MEI (Russia), NSTU (Russia), the Orleans Technical Institute (France), the Valencia Political Science Institute (Spain), the Polytechnic Institute of Porto (Portugal) on academic mobility.
Quality assurance (Accreditation, rating, work with employers)	Accreditation: There is no graduation according to the educational program Rating: There is no graduation according to the educational program The educational program is relevant for a specific area of employment: Educational (High School Teacher; College Lecturer); Scientific-research (to study the structure and properties of materials, when choosing the necessary research methods and mastering new technological processes, when writing and publishing scientific articles, preparing scientific reports and reports at scientific conferences) (laboratory technician; junior research assistant); industry (aerospace companies, engineering companies); production and technological (production of various technical devices, instruments and equipment and activities to monitor the state of the production and technological process).