Irradiation-induced compositional and topological defects in glassy Cu 64Ti36

G. Schumacher; S. Klaumunzer; W. Petry; U. Dedek

doi:10.1088/0305-4608/18/8/008

Irradiation-induced compositional and topological defects in glassy Cu ₆₄Ti₃₆

G. Schumacher, S. Klaumunzer, W. Petry, U. Dedek

Department of Physics

Helmholtz-Zentrum Berlin für Materialien und Energie (HZB)

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The metallic glass Cu₆₄Ti₃₆ was irradiated at 4.6 K with 3 MeV electrons up to fluences of 2.8*10¹⁹ cm ^-2. In the whole fluence region the electrical resistivity decreases almost linearly without a tendency to saturate. The subsequent isochronal annealing treatment up to 723 K reveals the existence of two contributions of opposite sign to the electrical resistivity. Topological defects are assigned to an increase and compositional defects to a decrease of the electrical resistivity. Both types of defects are totally annealed far below the crystallisation temperature.

Original language	English
Article number	008
Pages (from-to)	1681-1688
Number of pages	8
Journal	Journal of Physics F: Metal Physics
Volume	18
Issue number	8
DOIs	https://doi.org/10.1088/0305-4608/18/8/008
State	Published - 1988

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abstract = "The metallic glass Cu64Ti36 was irradiated at 4.6 K with 3 MeV electrons up to fluences of 2.8*1019 cm -2. In the whole fluence region the electrical resistivity decreases almost linearly without a tendency to saturate. The subsequent isochronal annealing treatment up to 723 K reveals the existence of two contributions of opposite sign to the electrical resistivity. Topological defects are assigned to an increase and compositional defects to a decrease of the electrical resistivity. Both types of defects are totally annealed far below the crystallisation temperature.",

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N2 - The metallic glass Cu64Ti36 was irradiated at 4.6 K with 3 MeV electrons up to fluences of 2.8*1019 cm -2. In the whole fluence region the electrical resistivity decreases almost linearly without a tendency to saturate. The subsequent isochronal annealing treatment up to 723 K reveals the existence of two contributions of opposite sign to the electrical resistivity. Topological defects are assigned to an increase and compositional defects to a decrease of the electrical resistivity. Both types of defects are totally annealed far below the crystallisation temperature.

AB - The metallic glass Cu64Ti36 was irradiated at 4.6 K with 3 MeV electrons up to fluences of 2.8*1019 cm -2. In the whole fluence region the electrical resistivity decreases almost linearly without a tendency to saturate. The subsequent isochronal annealing treatment up to 723 K reveals the existence of two contributions of opposite sign to the electrical resistivity. Topological defects are assigned to an increase and compositional defects to a decrease of the electrical resistivity. Both types of defects are totally annealed far below the crystallisation temperature.

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ER -

Irradiation-induced compositional and topological defects in glassy Cu ₆₄Ti₃₆

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