Jurabek Abdiev
Jurabek Abdiev
Rating
30
Publications
3
Citations
4
H-Index
1
Biography
Work experience
Theoretical physics Master of Theoretical Physics and Quantum Electronics at Samarkand State University named after Sharof Rashidov
From 2017-09-01 to 2019-07-27
Program Description: Our master's degree program in theoretical physics at the Department of Theoretical Physics and Quantum Electronics is a two-year intensive study program designed for students who aspire to deepen their understanding and increase their proficiency in theoretical physics and quantum electronics. Our faculty comprises world-renowned theoretical physicists and researchers dedicated to providing students with a rigorous and comprehensive grounding in the fundamental principles of theoretical and quantum physics. The program provides in-depth knowledge of essential theoretical physics concepts, including Quantum Mechanics, Statistical Physics, Electrodynamics, General Relativity, Quantum Field Theory, and many more. Moreover, it delves into quantum electronics topics, such as Quantum Computing, Quantum Optics, Nanophotonics, Quantum Information Science, and Solid-State Physics. Students will engage in rigorous coursework, advanced laboratory sessions, seminars, and tutorials, along with an individual research project that constitutes the master's thesis. The thesis is expected to be a comprehensive research project supervised by a faculty member that contributes to the current understanding of theoretical physics and quantum electronics. Learning Outcomes: Upon completion of the program, students will be expected to: Exhibit a deep and comprehensive understanding of advanced theoretical physics concepts. Demonstrate expertise in quantum electronics and its various applications in contemporary research and industry. Formulate and solve complex problems in theoretical physics using advanced mathematical methods. Demonstrate proficiency in utilizing high-level computational techniques and algorithms to simulate physical phenomena. Exhibit a clear understanding of scientific research methodologies and the ability to design and execute independent research in the field of theoretical physics and quantum electronics. Showcase the ability to communicate complex physics concepts effectively to various audiences. Career Prospects: Graduates from the Master's degree in Theoretical Physics are prepared for various career paths, including but not limited to academia, research institutions, high-tech companies, and the tech industry. Specifically, they could work as physicists, quantum scientists, researchers, data analysts, educators, and more. Furthermore, the program is an excellent stepping stone for students wishing to pursue a PhD in physics or related fields. Our mission is to shape the next generation of physicists who will contribute to the advancements in understanding the mysteries of the universe, quantum phenomena, and the interplay between them. Come join us in this thrilling journey of exploration and discovery.
Education
Bachelor of Physics at Samarkand State University
From 2011-09-01 to 2015-07-27
A Bachelor of Science in Physics is an undergraduate degree program that focuses on the study of matter and energy and the interactions between the two. This degree typically takes four years to complete, but this may vary depending on the educational institution and the pace of the student. Students pursuing a physics bachelor's degree will be exposed to fundamental physical principles and theories such as Classical Mechanics, Electromagnetism, Quantum Mechanics, Thermodynamics, and Statistical Mechanics. These principles form the foundation of our understanding of the physical universe. The coursework in a Bachelor of Science in Physics program generally includes extensive laboratory components where students can perform experiments, collect data, and apply the theories they have learned. This hands-on experience helps students to develop essential practical skills such as problem-solving, data analysis, and computational skills. In addition, students may also explore more specialized topics such as Condensed Matter Physics, Particle Physics, Astrophysics, Nuclear Physics, and Biophysics. Some programs offer opportunities for students to participate in research projects or internships, providing real-world experience and the potential for original contributions to the field. By the end of the program, students are expected to have a strong grasp of the fundamental concepts and theories in physics and be capable of applying this knowledge in practical settings. They will have developed strong analytical and critical thinking skills and be well-prepared for a wide range of career paths. These can include graduate studies in physics or related fields, or careers in areas such as engineering, data science, education, technology, finance, and more, where their quantitative and problem-solving skills are highly valued.