Infopaket

Physics of Detector Systems

15

Вибіркова дисципліна для ОП

Second

2021/2022

8 Semester

4

1.1 Physics and engineering of detector systems of ionizing radiation 2.1 Apply theoretical knowledge of physics and engineering of detector systems of ionizing radiation

Full-time form

1. Successful mastering of basic courses of physics ("Physics of the atomic nucleus and elementary particles") 2. Successful mastering of special courses on the interaction of ionizing radiation with matter and methods of registration of ionizing radiation.

The main tasks of studying the discipline are to master the basic methods and knowledge of physics and technology of detector systems of ionizing radiation.

1.Fabio Sauli. Gaseous Radiation Detectors. Fundamentals and Applications – Cambridge, 2014. – 498 p. 2.Handbook of Particle Detection and Imaging. Editor: Claus Ascheron, Heidelberg, Germany – Springer; Editors: Claus Grupen, Irène Buvat, 2012. – 533 p. 3. Klaus Groupen. Detectors of elementary particles. Fundamental properties of the neutron. -1999. - 408 p. 4.K. Kleinknecht. Detectors of corpuscular radiations. - 1990 - 224 p. 5.Helmuth Spieler. Front-End Electronics and Signal Processing, Lawrence Berkeley National Laboratory – 26 p. 6.Tutorials. Lecture Notes by Helmuth Spieler. http://www-physics.lbl.gov/~spieler/

Lecture demonstration; laboratory work, independent work; consultations

The discipline "Physics of Detector Systems" is evaluated by a modular rating system. It consists of 2 modules. The results of students' educational activity are evaluated on a 100 - point scale. semester assessment: 1. two modular tests (maximum - 10 + 20 = 30 points). 2. Polls and tests during lectures (maximum - 10 points). 3. Evaluation of laboratory work (maximum - 30 points). - final assessment in the form of a test (maximum -30 points)

Ukrainian