3MAD3 | Matériaux sous irradiation | Materials and Chemistry | S9 | ||||||
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Lessons : 15 h | TD : 0 h | TP : 0 h | Project : 0 h | Total : 15 h | |||||
Co-ordinator : Jean-Francois Hamet |
Prerequisite | |
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Basic knowledge in physics and material science | |
Course Objectives | |
Properties of an irradiated material are modified.Then, it is important to know behavior of a material under irradition before using under hard conditions (space, nuclear environment....). New materials can also be created under irradiation. Ionic implantation is the best way to dope a semiconductor. These different aspects are listed in this course. Effects of heavy ions produced at GANIL are also discussed. | |
Syllabus | |
Target - incident particle : electronic and atomic collisions, differential cross section, electronic and nuclear stopping ability, interaction potential. Defects created by irradiation : Frenkel pairs, chain of atomic displacement. Latent tracks of heavy ions : coulombian explosion model, gap model, thermal peak model. Materials evolution under irradiation : metals and alloys, semiconductors, ionic and insulating materials. Ionic implantation |
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Practical work (TD or TP) | |
Pas de TD ni TP | |
Acquired skills | |
To be able to understand a specific problem in the material irradiation field. | |
Bibliography | |
C.H.R Lehman, " Interaction of radiation with solids", ed North Holland publishing company, Amsterdam, 1977. A.Dunlop et al, "Materials under irradiation", ed. Trans Tech Publications, 1993 |
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