Modern nuclear physics experiments

Course: High Energy Physics

Structural unit: Faculty of Physics

Title
Modern nuclear physics experiments
Code
ОК 11
Module type
Обов’язкова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2021/2022
Semester/trimester when the component is delivered
2 Semester
Number of ECTS credits allocated
3
Learning outcomes
1.1 main technical characteristics of the SuperKEKB collider, Belle II detector operation and research prospects in the coming years; 1.2 basics and principles of research with neutron beams of different energies, as well as methods of research of samples; 1.3 basics and principles of research with photon beams of different wavelengths, especially coherent sources, as well as methods of research samples; 1.4 the most well-known modern experiments on the measurement of g-factor muon and gravitational waves; 1.5 know the main directions of research with neutron, photon neutral beams, as well as collider experiments;
Form of study
Full-time form
Prerequisites and co-requisites
1. Successful mastering of all previous courses in high energy physics and nuclear physics. 2. Be able to perform calculations and solve problems in nuclear physics and particle physics. 3. Have the skills to write computer programs for data analysis.
Course content
Курс «Сучасні ядерно-фізичні експерименти» дозволить значно покращити професійну підготовку студентів кафедри ядерної фізики, що пов'язано з тим, що студенти будуть розумітися в сучасних напрямками досліджень з різними пучками на сучасних прискорювачах, зокрема в експериментах на XFEL, Великому Адронному Колайдері, SuperKEKB, та інших експериментах на прискорювачах.
Recommended or required reading and other learning resources/tools
1. Present status of neutron fundamental physics at J PARCб Prog. Theor. Exp. Phys. 2012, 02B007 (11pages) DOI: 10.1093 /ptep/pts075 2. J.B. Murphy & C. Pelligrini, “Introduction to the Physics of the Free Electron Laser”, Laser Handbook, vol. 6 p. 9 69 (1990). 3. R. Bonifacio et al, “Physics of the High Gain Free Electron Laser & Superradiance”, Rivista del Nuovo Cimento, Vol. 13, no. 9 p1 69 (1990) [see also Rivista del Nuovo Cimento, Vol. 15, no. 11 p1 52 (1992) ] 4. The World Wide Web Virtual Library: Free Electron Laser research and applications http://sbfel3.ucsb.edu/www/vl_fel.html 5. Saldin E.L., Schneidmiller E.A., Yurkov M.V. The physics of free electron lasers.
Planned learning activities and teaching methods
Lecture demonstration; hands-on classes; independent student work; consultations.
Assessment methods and criteria
Semester grading: 1. Polls during lecturing (max. – 30 out of 100). 2. Modular tests (max. – 30 out of 100). 3. Final evaluation in the form of a test (max. –40 out of 100).
Language of instruction
Ukrainian

Lecturers

This discipline is taught by the following teachers

Volodymyr Yegorovich Aushev
Department of Nuclear Physics and High Energies
Faculty of Physics
Yuri Mykolayovych Onishchuk
Department of Nuclear Physics and High Energies
Faculty of Physics