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Accelerator Physics

ДВА. 02.21

Вибіркова дисципліна для ОП

Third

2023/2024

4 Semester

4

PLO-04. Plan and perform experimental and / or theoretical research in physics (astronomy) and related interdisciplinary fields using modern tools, critically analyze the results of their own research and the results of other researchers in the context of the whole complex of modern knowledge on the research problem. PLO-07. Deeply understand the general principles and methods of natural sciences, as well as the methodology of scientific research, be able to apply them in their own research in physics (astronomy) and in teaching practice.

Distance form

The graduate student must know: 1. Basic basic concepts of electrodynamics. 2. Basic laws of motion of charged particles in electric and magnetic fields. The graduate student must be able to: 1. Logically and consistently formulate the basic concepts in the physics of accelerators. 2. Independently master and use the literature on physics accelerators. 3. Use tools and methods of computer simulation calculations.

Charged particle accelerators play an important role in research in high-energy physics, medium and low-energy nuclear physics, and applications of ionizing radiation. The course is closely related to particle physics at high energies, nuclear physics and modern theories within the Standard Model and beyond. This course covers basic professional skills in the field of physics and technology of accelerators, both in basic areas of research and applied.

1. Chernyaev AP Accelerators in the modern world. - М .: МГУ, 2012. 2. Pashkov PT Fundamentals of proton synchrotron theory. - Protvino, 1999. 3. Lebedev AN, Shalnov AV Fundamentals of accelerator physics and technology. M .: Energoatomizdat, 1991. 4. Vinokurov NA Lectures on electronic optics for accelerators physicists. - INP SB RAS, NSU, Department of Accelerator Physics. http://accel.inp.nsk.su/lit.php 5. Lee S.Y. Accelerator Physics. 3 ed. - S-NJ-L-HK: World Scientific, 2012. 6. Wiedemann H. Particle Acceleraror Physics. - Berlin-Heidelberg: Springer, 2007. 7. Wilson E. An Introduction to Particle Accelerators. - Oxford publ., 2001. 8. Komar EG Fundamentals of accelerator technology. - M .: Atomizdat, 1975. 9. Иссинский И.Б. Introduction to the physics of charged particle accelerators. Course of lectures. Dubna: JINR, 2012. 10. Dobretsov Yu.P. Charged particle accelerators in experimental high-energy physics. M .: MEPhI, 2008

The total amount of 120 hours, including: lectures - 18 hours; practical classes - 4 hours; consultations - 2 hours; independent work - 96 hours.

Surveys and tests are conducted: at the beginning of each lecture (10-15 minutes) and at the end of the course - in practical classes.

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