Введение
CHAPTER 1. The phenomenon of inelastic sputtering by swift heavy ion irradiation
1.1. Phenomenon of inelastic sputtering by swift heavy ion irradiation 18
1.2. Dependence of inelastic sputtering on the structure of targets 26
1.3. Theoretical models of inelastic sputtering 29
1.4. Relaxation of electronic excitations and models of inelastic sputtering of metals 36
1.5. Conclusion 41
CHAPTER 2. The temperature in tracks of heavy ions with highly specific ionization energy loss in model of thermal peak 42
2.1. Introduction 43
2.2. Temperature effects in model of thermal peak 44
2.3. Pressure dependence of model parameters 54
2.4. Numerical scheme of calculation and algorithms 56
2.5. Approximate evaluation of temperature in ion track 61
2.6. Conclusion 65
CHAPTER 3. Influence of defect structure on the surface sputtering of metals and stainless steel under swift heavy ion irradiation in inelastic energy loss regime
3.1. Introduction 67
3.2. Ion facility for irradiation of samples by swift heavy ions 70
3.3. Experimental methods and results of sputtering of metals and steel under irradiation with swift heavy ions at high fluences 75
3.4. Experimental results and models of gold sputtering irradiated by 86Kr ions 89
3.5. Conclusion 102
CHAPTER 4. The changes of surface structure of highly oriented pyrolitic graphite (hopg) under irradiation with swift heavy ions
4.1. Introduction 105
4.2. Observation of inelastic induced surface effects in HOPG 109
4.3. Conclusion 124
CHAPTER 5. The surface changes of silicon single crystal under irradiation by swift krypton ions
5.1. Introduction 127
5.2. Surface changes of crystalline silicon irradiated by swift krypton
5.3. Temperature estimations based on thermal spike model
5.4. Conclusion
Conclusion
References
Acknowledgments
