The behavior of amorphous alloys under swift heavy ion irradiation at room temperature

Didyk, A.; Hofman, A.; Savin, V.; Semina, V.; Hajewska, E.; Szteke, W.; Starosta, W.

Artykuł - szczegóły

Tytuł artykułu

The behavior of amorphous alloys under swift heavy ion irradiation at room temperature

Autorzy

Didyk A. , Hofman A. , Savin V. , Semina V. , Hajewska E. , Szteke W. , Starosta W.

Treść / Zawartość

Pełne teksty:

The behavior of amorphous alloys under swift heavy ion irradiation.pdf

Pobierz

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

Experimental results of irradiation effects by heavy ions with high inelastic energy losses at the surfaces of some amorphous alloys are presented. It was shown that all studied alloys strongly swelled: up to 15% for Ni58Nb42 under irradiation with the 305 MeV 86Kr ion at a fluence of 1015 ion/cm2. Besides, the sputtering (evaporation) process takes place, too. Calculations of the temperatures on the ion trajectory axis were presented. It was shown that the calculated temperatures are higher than the melting temperature and the evaporation temperature, too. From these findings we can conclude that the sputtering (evaporation) of atoms in amorphous alloys is present.

Słowa kluczowe

amorphous alloy heavy ion irradiation sputtering surface structure swelling

Wydawca

Institute of Nuclear Chemistry and Technology

Czasopismo

Nukleonika

Rocznik

2005

Tom

Vol. 50, nr 4

Strony

149--152

Opis fizyczny

Bibliogr. 26 poz., rys.

Twórcy

autor

Didyk A.

didyk52@mail.ru

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, Tel.: +7 09621 63376, Fax: +7 09621 65955

autor

Savin V.

Zaporizhzhya State University, 66 Zhukovskiy Str., Ukraine 69600 Zaporizhzhya

autor

Semina V.

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

autor

Hajewska E.

Material Research Laboratory Department, Institute of Atomic Energy, 05-400 Otwock-Świerk, Poland

autor

Szteke W.

Material Research Laboratory Department, Institute of Atomic Energy, 05-400 Otwock-Świerk, Poland

autor

Starosta W.

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

Bibliografia

1. Audouard A, Balanzat E, Jousset JC, Lesueur D, Thomé L (1995) Atomic displacements and atomic motion induced by electron excitation in heavy-ion-irradiated amorphous metallic alloys. J Phys-Condens Matter 5:995−1018.
2. Davydov AA, Kalinichenko AI (1985) Mechanical effects near ion tracks and thermal peaks. Voprosy Atomnoj Nauki i Tekhniki. Radiation Damage Physics and Radiation Technology (Rus) 3;36:27−30.
3. Didyk AYu (1995) Heavy ion irradiation effect on chromium-nickel steel at high temperatures. Metally (Rus) 3:128−135.
4. Furuno S, Otsu H, Hojou K, Izui K (1996) Tracks of high-energy heavy ions in solids. Nucl Instrum Meth Phys Res B 107:223−226.
5. Gaiduk PI, Komarov FF, Tishkov VS, Wesch W, Wendler E (2000) Wurtzite InP formation during swift Xe-ion irradiation. Phys Rev B 61:15785−15788.
6. Gaiduk PI, Komarov FF, Wesch W (2000) Damage evolution in crystalline InP during irradiation with swift Xe ions. Nucl Instrum Meth Phys Res B 164/165:37−383.
7. Gegusin YaE, Kaganov MI, Lifshic IM (1973) Electron free length effect on track formation around charged particle trajectory in metal. Fizika Tverdogo Tela (Rus) 15:2425−2428.
8. Gutzmann A, Klaumünzer S (1997) Shape instability of amorphous materials during high-energy ion bombard-ment. Nucl Instrum Meth Phys Res B 127/128:12−17.
9. Gutzmann A, Klaumünzer S, Meier P (1995) Ion-beam-induced surface instability of glassy Fe40 Ni40 B20. Phys Rev Lett 74:2256−2259.
10. Hou Ming-Dong, Klaumünzer S, Schumacher G (1990) Directional changes of metallic glasses during bombard-ment with fast heavy ions. Phys Rev B 41:1144−1157.
11. Huber H, Assmann W, Karamian SA et al. (1998) Heavy-ion induced damage of crystalline Ge and W in the 0.5−8 A MeV range. Nucl Instrum Meth Phys Res B 146:309−316.
12. Karamian SA, Oganessian YuTs, Bugrov VN (1989) The effect of high-energy ions heavier than argon on a ger-manium single crystal and a new mechanism for autore-crystallisation. Nucl Instrum Meth Phys Res B 43:153−158.
13. Klaumünzer S (2000) Radiation compaction of porous Vycor glass. Nucl Instrum Meth Phys Res B 166/167:459−464.
14. Komarov FF, Novikov AP, Burenkov AF (1994) Ion implantation. Minsk University, Minsk (in Russian).
15. Kuch H, Klaumünzer S (1998) Magneto-optical study of flux-line pinning in semiconductors with linear defects. Nucl Instrum Meth Phys Res B 146:565−571.
16. Kulikov DV, Suvorov AL, Suric PA, Trushin YuV, Kharlamov VS (1997) Physical model of formation periodical structure on the surface of pyrolytic graphite at high energy ion irradiation. Let J Tech Phys (Rus) 23;14:89−93.
17. Lifshic IM, Kaganov MI, Tanatarov LV (1959) On the theory of radiation changes in metals. Atomnaja Energija (Rus) 6:391−402.
18. Meftah A, Djebara M, Khalfaoui N, Toulemonde M (1998) Sputtering of vitreous SiO2 and Y3Fe5O12 in the electronic stopping power region: A thermal spike description. Nucl Instrum Meth Phys Res B 46:431−436.
19. Nastasi M, Mayer JW (1994) Ion beam mixing and liquid interdiffusion. Radiat Eff Defects Solids 130/131:367−385.
20. 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, Sevastopol, Ukraine, pp 42−50.
21. Semina VK, Didyk AYu, Altynov VA (2001) The changes in amorphous alloy under high-energy heavy ions irradiation. In: Proc of the 6th Int Seminar: Structural principles of material modifications by unconventional technologies, Obninsk, Russia, pp 24−25 (in Russian).
22. Semina VK, Didyk AYu, Altynov VA et al. (2001) Structural changes in amorphous alloys under irradiation with high energy heavy ions. In: Proc of the 11th Int Conf Radiation Physics of Solids, Sevastopol, Ukraine, pp 10−15 (in Russian).
23. Skuratov VA, Illes A, Illes Z et al. (1999) Beam diag-nostics and data acquisition system for ion beam transport line used in applied research. JINR Communications E13-99-161. JINR, Dubna.
24. Toulemonde M (1999) Nanometric phase transformation of oxide materials under GeV energy heavy ion irradiation. Nucl Instrum Meth Phys Res B 156:1−11.
25. Trautmann C, Dufour C, Paumier E, Spohr R, Toulemonde M (1996) Track etching in amorphous metallic Fe81B13,5Si3,5C2. Nucl Instrum Meth Phys Res B107:397−402.
26. Yavlinskii YuN (2000) Heating of crystallineand amor-phous metals under swift heavy-ion irradiation. Radiat Eff Defects Solids 153:75−91.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BUJ6-0004-0083