Module catalogue 2018/2019
| 2E2AD3 | Detecteurs nucleaires - Nuclear détector | Electronics and Applied Physics | S8 | ||||||
|---|---|---|---|---|---|---|---|---|---|
| Lessons : 15 h | TD : 9 h | TP : 0 h | Project : 0 h | Total : 24 h | |||||
| Co-ordinator : Jean-Claude Angelique | |||||||||
| Prerequisite | |
|---|---|
| Knowledge of ionizing radiation and radiation-matter interactions. | |
| Course Objectives | |
| Know the principles of detection of ionizing radiation. Know the specificities of the different types of detectors: gas, scintillators or semiconductors. Know detector response for radiation |
|
| Syllabus | |
| General information on radiation and the principles of detection. - Classification and characterization of detectors: - Gas detectors: CI, CP, PP, drift chamber, ... - Scintillation detectors: Inorganic and organic scintillators - Semiconductor detectors: silicon, germanium, CdTe, ........ - Characteristics - Signals produced. - Associated electronics. - Basic measurement chains. - Detection efficiency - Statistical elements applied to the measurements. |
|
| Practical work (TD or TP) | |
| Detection of ionizing radiation use in industry, research and medical world |
|
| Acquired skills | |
| Ionizing radiation detection skills | |
| Bibliography | |
| G. Knoll Radiation Detection and Measurement W.R. Leo Techniques for nuclear and particle physics experiments A. Lyoussi Détection de rayonnements et instrumentation nucléaire D. Blanc Précis de physique nucléaire H. Enge Introduction to Nuclear Physics K. Krane Introductory Nuclear Physics Ecole Joliot Curie, Techniques ingénieurs, Internet... |
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