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• W950386429 abstract "Research on the influence of irradiation with swift heavy ions in the inelastic energy loss region began to develop intensively in the last 15−20 years in many accelerator centers. As it is well known, the problems of ion track creation were connected with two old models: the Coulomb explosion model and the thermal spike (thermal peak) one. With the development of some new methods for studying irradiated surfaces, such as scanning tunneling (STM) and atomic force microscopy (AFM), the investigation possibilities of irradiated surfaces gained a new life. It is very interesting to study the interaction of swift heavy ions with metals, dielectrics, semiconductors and amorphous alloys. Some investigations showed that the structure of the volume around the heavy ion trajectory consists of a core with radius R1 ~ 50 A, which has a high damage density, and a less-damaged volume around this core with the radius larger than the core radius (R2 ~ 100 A) [11]. Research on the sputtering of coarse-grained metals by swift heavy ions was started about ten years ago in connection with acceleration and storage requirements for high-intensity heavy ion drivers [2]. The sputtering yields of annealed coarse-grained gold with high-energy U and Kr ions have been measured experimentally [6, 13], and experimental data on the sputtering of Au, Zr and Ti by Au swift ions were obtained recently [1]. As shown by an analysis of experimental data [1, 6, 13], the difference between the experimentally measured and the calculated sputtering yield according to the cascade theory is generally negligible. Heavy ions will irradiate in the so-called driver metals, where they create defects in the initial polycrystalline structure due to elastic collisions. These defects persist during irradiation. In this case sputtering mechanism can change [3, 15]. The influence of defect structure on the surface sputtering of metals under irradiation of swift heavy ion in the inelastic energy loss region Yurii N. Cheblukov, Alexander Yu. Didyk, Andrzej Hofman, Vera K. Semina, Wojciech Starosta" @default.
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• W950386429 date "2004-01-01" @default.
• W950386429 modified "2023-09-23" @default.
• W950386429 title "The influence of defect structure on the surface sputtering of metals under irradiation of swift heavy ion in the inelastic energy loss region" @default.
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