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- 1. Ion Induced Millimeter-Size Structures Growth on Tungsten Surface
- 2. Understanding of plasma-material interactions (PMI) Preliminary modeling Accumulation of experimental data Erosion of the PFCs, fuel inventories and material migration Motivation 2
- 3. Motivation High fluxes of particles (1021-1024 m-2s-1 and above) and heat (up to 20 MW·m-2) The experimental data and ability of its acquisition are limited for the high-flux range 3
- 4. Experimental facilities: tokamaks Typical topics: • material migration • influence of eroded material on plasma parameters • re-deposition • stability of PFCs under long-term irradiation ASDEX Upgrade JET 4
- 5. Experimental facility The discharge gapCROSS-SECTION 5
- 6. 6 Ballistic and magnetic ion beam focusing in action
- 7. 7 O. Girka, I. Bizyukov, K. Sereda, A. Bizyukov, M. Gutkin, V. Sleptsov. Compact steady-state and high-flux FALCON ion source for tests of plasma-facing materials // Review of Scientific Instruments, 83, 083501 (2012) Ballistic and magnetic ion beam focusing
- 8. Ion energy distribution function The energy distribution of H ions has been measured with accuracy of 30 eV Cut-off of the low-energy part is explained by strong magnetic field, which bends the slow ions toward the cathodes 8
- 9. 9 FALCON ion source application for plasma-surface interaction modeling
- 10. Samples description 10 polished Plansee tungsten samples purity 99.99% wt. sample size 15×12×0.75 mm3 grain size 5-20 μm texture [100] residual stresses -220 MPa lattice parameter 3,1645 Å
- 11. Experimental conditions The presence of impurities will influence the PWI processes by both physical and chemical interactions. Tungsten, beryllium, helium and divertor cooling species (argon, neon, or nitrogen) will be present as impurities in the ITER plasma.1 1Ch. Linsmeier, B. Unterberg, J.W. Coenen, R.P. Doerner, H. Greuner, A. Kreter, J. Linke and H. Maier. Material testing facilities and programs for plasma-facing component testing. Nucl. Fusion 57 (2017) 092012 (34pp). https://doi.org/10.1088/1741-4326/aa4feb Irradiation parameters: • Ar ion flux 2-3×1022 m-2s-1; • heat flux 3 MW m-2 ; • average ion energy 2 keV; • sample temperature 1200 K. 11
- 12. SEM images of W surface after 500 C Argon ions irradiation 12 500 C
- 13. SEM images of W surface after 1000 C Argon ions irradiation 13 1000 C
- 14. SEM images of W surface after 1000 C Argon ions irradiation 14 1000 C
- 15. SEM images of W surface after 1000 C Argon ions irradiation 15 1000 C
- 16. Conclusions Polished Plansee tungsten sample was irradiated with Ar ion flux Surface structures of millimeter-scale have been found on tungsten surface Structures begin to growth after preliminary half-fluence (≈500 Coulomb) exposure and reach typical size of hundreds of micrometers in longitudinal direction and height 0.1-0.2 mm (after exposure to ≈1000 Coulomb) This effect needs further investigations 16