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Physics and Mathematics


The faculty was originally established in 1957 under the name Physics and Mathematics Faculty. Over the years, it has operated under various names, such as the Faculty of Natural Sciences, Faculty of Physics and Engineering, Faculty of General Technical Sciences and Art Graphics, Faculty of Mathematics, and Faculty of Physics. Since August 2024, it has once again been functioning under the name Faculty of Physics and Mathematics. The Faculty of Physics and Mathematics is a center of knowledge that integrates scientific potential with modern educational technologies, aiming to train highly qualified specialists in the fields of physics, mathematics, and digital education technologies. Highly skilled professors and lecturers provide education in both fundamental and applied sciences. The educational process is organized based on innovative approaches and information technologies. The faculty offers the following undergraduate programs: 60530900 – Physics, 60540100 – Mathematics, 60540200 – Applied Mathematics, 60610100 – Information Systems and Technologies, 60610100 – Computer Science and Programming Technologies.

At the graduate (master’s) level, the following programs are offered: 70530901 – Physics (by specializations), 70540101 – Mathematics, 70540201 – Applied Mathematics. Additionally, various scientific clubs and laboratories operate within the faculty. 

Faculty's Mission.

To train highly qualified specialists in the fields of physics, mathematics, and digital education technologies who possess both fundamental and applied knowledge, are competitive in scientific research and educational activities, think analytically, are creative, and capable of effectively utilizing modern technologies.

Mission and Values: The Faculty’s Core Objectives in Education, Research, and Its Role in Society. 

Educational Objectives

To train specialists with deep theoretical and practical knowledge in the fields of physics and mathematics.

To effectively apply modern pedagogical technologies and information and communication tools in the educational process.

To develop students’ critical and analytical thinking skills, guiding them toward independent learning.

To improve the quality of higher education in accordance with international standards.

Research Objectives:

To contribute to the advancement of science and national development by promoting scientific research and implementing innovative projects.

To support young researchers and student scholars, spark their interest in scientific inquiry, and train knowledgeable and skilled young scientists.

To enhance scientific potential by strengthening national and international research collaboration.

Role and Objectives in Society:

The fields of physics, mathematics, and information technology play an invaluable role in society. The faculty aims to serve societal development through science, offering practical solutions to public challenges.

To enhance social engagement by disseminating the outcomes of educational and research activities to the broader community.

Educational Fields and Programs

Bachelor’s Degree Programs:

60530500 – Physics. This undergraduate program provides fundamental knowledge based on natural sciences, engineering, and technology. Students gain an in-depth understanding of both the theoretical and practical aspects of physics. Modes of study: Full-time and evening modes of study. Duration: 4 years (full-time), 4.5 years (evening).

Objectives: The Bachelor’s Degree Programme in Physics is designed to train competent and competitive specialists who possess solid fundamental knowledge, strong analytical thinking, and practical laboratory skills in the field of physical sciences, in line with the needs of a rapidly developing labor market and the national system of continuing education. Graduates are capable of applying core concepts and laws of classical and modern physics to solve theoretical and applied problems, performing experimental measurements and processing results using standard and advanced laboratory equipment, and ensuring compliance with safety and quality requirements in scientific and educational environments. They are prepared to use mathematical methods, computational modeling, and modern digital tools for data collection, analysis, and visualization, as well as to interpret physical phenomena based on evidence and scientific reasoning. Graduates can critically evaluate scientific and technical information from national and international sources, communicate results effectively in written and oral forms, work productively both independently and in teams, and demonstrate professional ethics and responsibility. They are also able to contribute to innovation and sustainable development by applying physics-based approaches in education, research, and related fields, and by continuously improving their professional competence through lifelong learning.

Definition:
The Bachelor’s programme 60530500 - Physics prepares students to understand natural phenomena, physical laws and modern technologies on a scientific basis. During the programme, students study mechanics, molecular physics, electricity and magnetism, optics, atomic and nuclear physics, astronomy and important areas of modern physics.
The learning process combines theoretical knowledge with laboratory work, practical classes, computer modelling and internships. This helps students not only learn physical laws, but also test them through experiments, analyse results and solve practical problems.
The programme provides graduates with the knowledge and skills needed to work in educational institutions, research laboratories, industrial enterprises, medical diagnostic centres and information technology fields. Graduates may also continue their studies at the master’s level.

60540100 – Mathematics. The Mathematics bachelor’s program focuses on both the theoretical foundations of mathematics and its application in solving real-life problems. This field emphasizes data analysis and mathematical modeling in engineering and economics. The duration of study is 4 years (full-time), 4.5 years (evening mode), and 5 years (distance learning). Full-time, evening, and distance learning modes of study are available.

60540200 – Applied Mathematics. The Applied Mathematics bachelor’s program is focused on both the theoretical foundations of mathematics and its application in solving real-life problems. This program emphasizes programming, data analysis, and mathematical modeling in engineering and economics. The duration of study is 4 years (full-time), 4.5 years (evening mode), and 5 years (distance learning). Full-time, evening, and distance learning modes of study are available.

60610100 – Information Systems and Technologies. This bachelor’s program is aimed at training highly qualified specialists for the modern IT sector. It includes knowledge and skills related to software development, information security, artificial intelligence, data analysis, and computer networks. Full-time, evening, and distance learning modes of study are available. The duration of study is 4 years (full-time), 4.5 years (evening mode), and 5 years (distance learning).

60610100 – Computer Science and Programming Technologies. This bachelor’s program focuses on teaching modern programming, algorithms, data processing, and artificial intelligence. It is designed to prepare highly qualified IT specialists with a special focus on software development, system architecture, network technologies, and data analysis. The duration of study is 4 years (full-time), 4.5 years (evening mode). Full-time and evening modes of study are available.

Master's Degree Programs: Available specializations and admission requirements.

70530901 – Physics (by specializations). The master’s program in Physics is aimed at providing in-depth scientific and practical knowledge in various fields of physics. This program builds upon the foundational knowledge acquired during undergraduate studies and offers opportunities for independent research, working with modern technologies, and exploring advanced physical concepts.

Objectives: Graduates of the Master’s Degree Programme in Physics are capable of carrying out advanced scientific, research, and pedagogical activities in higher education institutions and research-oriented organizations by applying modern methodologies, innovative approaches, and digital technologies. They are able to design, implement, and evaluate educational and research processes in accordance with international standards, including the development and assessment of learning outcomes, and the preparation of educational and methodological resources to support independent and distance learning. Graduates possess the competence to plan and conduct scientific research based on current national and international achievements in physics, select appropriate theoretical and experimental methods, and apply advanced instrumentation, computational techniques, and data analysis tools to obtain reliable results. They are prepared to participate in and lead research and project-based activities, formulate scientific hypotheses, design experimental or modeling strategies, analyze and interpret complex datasets, and present findings through scientific publications, conference presentations, and professional reports. Furthermore, graduates demonstrate academic integrity, professional ethics, effective scientific communication, and a commitment to continuous professional development, enabling them to propose evidence-based solutions to scientific and applied problems and contribute meaningfully to the advancement of education, science, and innovation.

Definition:
The Master’s programme 70530501 - Physics is a two-year programme focused on the advanced study of modern areas of physics. The programme is organised on the basis of the credit-module system.
During the programme, students study research methodology, methods of teaching specialised subjects, modern research methods in physics, theory of nonlinear oscillations and waves, interaction of electromagnetic radiation with media, and condensed matter physics.
The programme connects theoretical knowledge with research, experimentation, analysis and practical activity. Students develop skills in writing scientific papers, analysing experimental results, preparing research projects, using modern information technologies and completing a master’s dissertation.
Graduates may work in higher education institutions, research institutes, laboratories, laser technologies, optoelectronics, materials science, industry and other scientific and technical fields.

70540101 – Mathematics. The master's program in Mathematics is a high-level educational program focused on studying the theoretical and applied aspects of mathematics in depth. It enhances the knowledge gained during the undergraduate level and provides opportunities for specialization and skill development in specific areas. The program emphasizes modern areas of mathematics, research methodology, and practical applications, while preparing students for independent scientific research.

70540201 – Applied Mathematics. The master's program in Applied Mathematics is designed to provide deep knowledge in mathematical modeling, computational technologies, and analytical methods across various fields. This specialization prepares students to work in scientific research, engineering, IT, economics, and other technological sectors.

PhD/DSc Programs:

01.04.10 – Physics of Semiconductors. This doctoral program focuses on the study of semiconductor materials, electronic and optoelectronic devices, quantum physics, nanoelectronics, and next-generation technologies. It is designed to prepare researchers for scientific work involving advanced semiconductor technologies and the exploration of fundamental physical principles. 

01.01.01 – Mathematical Analysis. The doctoral program in Mathematical Analysis is a specialized course aimed at training highly qualified researchers in this fundamental area of mathematics. It deepens the knowledge obtained at the master’s level, allows for independent scientific research, and supports the development of innovative solutions to current problems in mathematical analysis. This program serves as one of the key steps toward obtaining a Doctor of Science (DSc) degree.

05.01.11 – Digital Technologies and Artificial Intelligence. The doctoral program in Digital Technologies and Artificial Intelligence is aimed at conducting in-depth scientific research in modern information technologies, intelligent systems, big data, and automated control systems. The program covers areas such as developing artificial intelligence models, improving algorithms and machine learning technologies, and advancing high-performance computational methods.

Information for Students

Scholarships and Financial Aid: Students have the opportunity to receive free education through state-funded grants. Based on their academic performance, students are awarded monthly scholarships. 

Internships and Employment Opportunities: During their studies, students have the opportunity to strengthen their theoretical knowledge through internships and practical work in various organizations and companies. The faculty cooperates with numerous public and private institutions. Among the public organizations: Namangan Regional Department of Preschool and School Education, Namangan Regional Electric Networks JSC, Namangan Hydrometeorological Center. Among private and state institutions: Namangan Mekhmash JSC, Namangan Lamp Factory, Information Systems Center of the State Tax Committee, Uzbektelecom, commercial banks and financial institutions (in Data Science and IT), and private IT and technology companies such as IT-Park Namangan, IT-School Namangan, and Algorithm – where students can complete their practical training in IT and programming fields.

Students can find employment in the following areas: universities – conducting fundamental research; higher education institutions (as teachers or researchers); industrial and engineering companies; energy and technological sectors; information technology and programming; nuclear and space technologies; physics laboratories and industrial research centers; nuclear energy and space technologies; engineering and technological industries; telecommunications and IT; nano- and microtechnologies; space and astrophysical laboratories – quantum and gravity research; nuclear physics and particle laboratories (CERN, Fermilab, ITER) – theoretical analysis of experimental data; programming and computational physics – physical modeling and supercomputing; space technology and aerospace industry – applied studies in relativity and quantum effects; semiconductor and microelectronics companies (TSMC, Intel, Samsung, GlobalFoundries); research institutes and universities; optoelectronics and telecommunications; quantum technologies and superconductors; space and military technology industries; energy companies and industrial enterprises; ecological and sustainable development projects; research institutes and laboratories; state energy policy and environmental management organizations; development of new generation energy technologies; semiconductor manufacturing companies (Intel, Samsung, TSMC, AMD); nano- and microtechnology centers; telecommunications and quantum technologies; new generation energy sources and solar panel technologies. 

IT and Programming: Software Engineer, Web and Mobile Developer (Front-end, Back-end, Full-stack Developer), Artificial Intelligence Engineer, Data Analyst, Data Scientist, IT Project Manager. Mathematics and Modeling: Mathematical Analyst (in FinTech and Data Science), Algorithm and Optimization Specialist, Specialist in Engineering and Economic Modeling. Cybersecurity and Networks: Cybersecurity Specialist, Network Engineer and Administrator. IT in Finance and Business: Developer of software solutions for FinTech startups and banking systems, Digital Marketing Specialist, Business Analyst.

Infrastructure and Resources

Laboratories and Technical Equipment: The educational process includes access to laboratories and virtual setups for mechanics, molecular physics, electromagnetism, atomic physics, and elementary particle physics. Technical equipment includes 2 modern 3D printers designed for high-speed operation, programming, and scientific research; computers intended for software development and research activities. There are 2 scanners for digitizing documents and scientific materials; 12 projectors for lectures, presentations, and conferences; and 7 printers for printing documents and graphic materials. Computer laboratories are equipped with modern computers for programming, algorithm testing, and project development. A dedicated technical base is available for research in AI, Machine Learning, and Data Science. Software development and testing are supported with all necessary tools. Equipment includes 65 modern high-performance computers intended for programming and research, and 5 monitors suitable for wide-format graphics and technical work.

Events and Activities

Student Organizations: To engage students in scientific activities, many research projects and startups have been developed within the framework of the "Ulugbek Heirs" competition. As a result, each year students actively participate in district, regional, and national stages and achieve high results. Student activity is not limited to academics but also extends to social, cultural, and sports fields. The faculty hosts various clubs and teams that allow students to express themselves in different areas. Football team – organizes football tournaments and sports competitions among students of different fields, and participates in inter-university football matches. Volleyball team – promotes a healthy lifestyle and takes part in inter-university sports competitions. Sports events – festivals and tournaments are held throughout the academic year to improve students’ physical abilities. 

International Cooperation: The faculty maintains partnerships with several foreign universities that offer students opportunities to gain international experience and enhance their academic knowledge. These collaborations provide possibilities for academic exchange, scientific research, internships, and training. Under agreements signed with the University of Malaya, Belarusian National Technical University, and Osh State University, students can participate in exchange programs between the institutions. Through these programs, students can advance their knowledge in their field of study and gain experience abroad. Joint conferences and seminars are held based on ongoing international research and projects. Exchange-based internship programs organized with partner universities also help students gain international work experience.


Dekanat

RAVSHANBEK ISLOMOV TURGUNALIYEVICH
Lavozimi Dekan muovini
Email -
Ilmiy darajasi Darajasiz
Ilmiy unvoni Unvonsiz

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