The influence of defect structure on the surface sputtering of metals under irradiation of swift heavy ion in the inelastic energy loss region

• Autorzy: Cheblukov Y. , Didyk A. , Hofman A. , Semina V. , Starosta W.
• Języki publikacji: EN

Abstrakty

EN

The results of the influence of heavy ion irradiation in the inelastic energy loss region on the structure of some metals such as nickel, single crystal tungsten, chromium-nickel stainless steel and cold-deformed gold are presented. It was shown that the sputtering (evaporation) yield strongly depends on the density of defects in these metals. The sputtering yield starts to grow strongly with the increase of damages created by elastic and inelastic energy heavy ion losses. The stainless steel surface structure behaved differently under irradiation than the pure metal surface structure.

Słowa kluczowe

EN

defect concentration effect; ion irradiation; ion track temperature; metals; sputtering; surface structure

• Wydawca: Institute of Nuclear Chemistry and Technology
• Czasopismo: Nukleonika
• Rocznik: 2004
• Tom: Vol. 49, nr 1
• Strony: 15--21
• Opis fizyczny: Bibliogr. 18 poz., rys.

Twórcy

autor

Cheblukov Y.

• Institute of Theoretical and Experimental Physics, 25 Bolshaja Cheremushkinskaya Str., 117259 Moscow, Russia

autor

Didyk A.

• Joint Institute for Nuclear Research, FLNR, 141980 Dubna, Russia, Tel.: 7 09621 63376, Fax: 7 09621 65955

autor

Hofman A.

• Joint Institute for Nuclear Research, FLNR, 141980 Dubna, Russia and Institute of Atomic Energy, 04-400 Otwock-Świerk, Poland

autor

Semina V.

• Joint Institute for Nuclear Research, FLNR, 141980 Dubna, Russia, Tel.: 7 09621 63376, Fax: 7 09621 65955

autor

Starosta W.

• Institute of Nuclear Chemistry and Technology, 16 Dorodna Str., 03-195 Warsaw, Poland

Bibliografia

• 1. Akapiev GI, Balabaev AN, Vasiliev NA et al. (1998) Gold sputtering by krypton ions in inelastic energy loss range. J Tech Phys (Rus) 68;1:134−135
• 2. Chanel M, Hansen J, Laurent J-M, Madsen N, Mahner E (2001) Experimental investigations of impact-induced molecular desorption by 4.2 MeV/u Pb ions. In: Lucas P, Webber S (eds) Proc of the 2001 Particle Accelerator Conf (PAC 2001), June 18−22, 2001, Chicago, USA. Vol. 3, pp 2165−2167
• 3. Cheblukov YuN (1999) Coarse-grained structure metal sputtering by swift heavy ions in the inelastic energy loss range. In: Abov YuG, Suvorov AL, Firsov V (eds) Proc of the 1st Int School of Physics Actual Problems of the Nuclear Physics, Condensed Matter Physics and Chemistry, February 17−26, 1998, Zvenigorod, Russia, pp 181−184 (in Russian)
• 4. Cheblukov YuN, Didyk AYu, Khalil A et al. (2001) Sputtering of metals by swift heavy ions with high fluence. In: Abov YuG, Suvorov AL, Firsov VG (eds) Proc of the 15th Int Conf on Ion-Surface Interactions (ISI-2001), August 27−31, 2001, Zvenigorod, Russia. Vol. 1, pp 171−174
• 5. Cheblukov YuN, Didyk AYu, Khalil A et al. (2002) Sputtering of metals by heavy ions in the inelastic energy loss range. Vacuum 166:133−136
• 6. Cheblukov YuN, Koshkarev DG, Peuto AR, Rudskoygh IV, Vasiliev NA (1992) Sputtering of gold by uranium ions with UNILAC energies. Part Accel 37/38:351−353
• 7. Davydov AA, Kalinichenko AI (1985) Mechanical effects near ion tracks and thermal peaks. Voprosy Atomnoj Nauki i Tekhniki (Radiation Damage Physics and Radiation Technology) 3;36:27−30
• 8. Didyk AYu (1995) Heavy ion irradiation effect on chromiumnickel steel at high temperatures. Metally (Rus) 3:128−135
• 9. Didyk AYu, Semina VK, Khalil A et al. (2000) High-energy heavy ion irradiation effect on nickel sputtering. Lett J Tech Phys (Rus) 26;2:1−7
• 10. Didyk AYu, Semina VK, Stepanov AE, Suvorov AL, Cheblukov YuN, Khalil A (2001) The surface structure changes of Ni, W and stainless steel irradiated with high energy krypton ions. Adv Mater 1:58−64
• 11. Didyk AYu, Varichenko VS (1995) Track structure in dielectric and semiconductor single crystals irradiated by heavy ions with high level of inelastic energy loss. Radiat Meas 25:119−124
• 12. Komarov FF, Novikov AP, Burenkov AF (1994) Ion implantation. Minsk University, Minsk (in Russian)
• 13. Koshkarev DG (1984) The charge-exchange instability in intense ion beams. Part Accel 16:1−4
• 14. Kulikov DV, Suvorov AL, Suric PA, Trushin YuV, Kharlamov VS (1993) Physical model of formation periodical structure on the surface of pyrolytic graphite at high Energy ion irradiation. Lett J Tech Phys (Rus) 23;14:89−93
• 15. Mieskes HD, Assmann W, Brodale M et al. (1998) Measuring sputtering yields of high energy ions on metals. Nucl Instrum Meth Phys Res B 146:162−171
• 16. Oganessian YuTs, Dmitriev SN, Didyk AYu, Gulbekian GG, Kutner VB (2000) New possibilities of the FLNR accelerator complex for the production of track membranes. In: Proc of the 10th Int Conf Radiation Physics of Solids, 3−8 July, 2000, Sevastopol, Ukraine, pp 42−50
• 17. Skuratov VA, Illes A, Illes Z et al. (1999) Beam diagnostics and data acquisition system for ion beam transport line usedin applied research. JINR Communications E13-99-161.JINR, Dubna
• 18. Yavlinskii Yu (1998) Track formation in amorphous metals under swift heavy ion bombardment. Nucl Instrum Meth Phys Res B 146:142−149