High-temperature implantation of gold into nickel

M. R. James; N. Q. Lam; L. E. Rehn; P. M. Baldo; L. Funk; J. F. Stubbins

doi:10.1016/0257-8972(92)90277-H

High-temperature implantation of gold into nickel

M. R. James, N. Q. Lam, L. E. Rehn, P. M. Baldo, L. Funk, J. F. Stubbins

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Abstract

The role of irradiation temperature on implant distributions was investigated in the Au-Ni system. Gold ions were implanted at 300 keV into polycrystalline nickel samples at temperatures between 25 and 700 °C to a dose of 10¹⁶ cm^-2. The spatial gold distributions were analyzed with Rutherford backscattering spectrometry, using both 1.7 and 3.0 MeV ⁴He, and secondary ion mass spectrometry. The results showed that the gold profiles were practically insensitive to target temperature below about 200 °C. At higher temperatures, systematic decreases in the surface and peak concentrations and longer penetration tails were observed. The evolution of the implant distribution in time and space during implantation was also calculated theoretically by means of a comprehensive kinetic model. In general, the effects observed experimentally can be reproduced theoretically, and interpreted in terms of substantial sputtering at low temperatures, and dominant radiation-induced segregation at higher temperatures. In addition, a systematic fitting of model calculations to experimental measurements allowed the determination of various defect parameters.

Original language	English
Pages (from-to)	435-440
Number of pages	6
Journal	Surface and Coatings Technology
Volume	51
Issue number	1-3
DOIs	https://doi.org/10.1016/0257-8972(92)90277-H
State	Published - Apr 15 1992

Funding

One of the authors (A.G.) acknowledges a subsidence grant from ICTP, Trieste. Thanks are due to A. Miotdlo for helpful discussion and critical reading of the manuscript.

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10.1016/0257-8972(92)90277-H

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title = "High-temperature implantation of gold into nickel",

abstract = "The role of irradiation temperature on implant distributions was investigated in the Au-Ni system. Gold ions were implanted at 300 keV into polycrystalline nickel samples at temperatures between 25 and 700 °C to a dose of 1016 cm-2. The spatial gold distributions were analyzed with Rutherford backscattering spectrometry, using both 1.7 and 3.0 MeV 4He, and secondary ion mass spectrometry. The results showed that the gold profiles were practically insensitive to target temperature below about 200 °C. At higher temperatures, systematic decreases in the surface and peak concentrations and longer penetration tails were observed. The evolution of the implant distribution in time and space during implantation was also calculated theoretically by means of a comprehensive kinetic model. In general, the effects observed experimentally can be reproduced theoretically, and interpreted in terms of substantial sputtering at low temperatures, and dominant radiation-induced segregation at higher temperatures. In addition, a systematic fitting of model calculations to experimental measurements allowed the determination of various defect parameters.",

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T1 - High-temperature implantation of gold into nickel

AU - James, M. R.

AU - Lam, N. Q.

AU - Rehn, L. E.

AU - Baldo, P. M.

AU - Funk, L.

AU - Stubbins, J. F.

PY - 1992/4/15

Y1 - 1992/4/15

N2 - The role of irradiation temperature on implant distributions was investigated in the Au-Ni system. Gold ions were implanted at 300 keV into polycrystalline nickel samples at temperatures between 25 and 700 °C to a dose of 1016 cm-2. The spatial gold distributions were analyzed with Rutherford backscattering spectrometry, using both 1.7 and 3.0 MeV 4He, and secondary ion mass spectrometry. The results showed that the gold profiles were practically insensitive to target temperature below about 200 °C. At higher temperatures, systematic decreases in the surface and peak concentrations and longer penetration tails were observed. The evolution of the implant distribution in time and space during implantation was also calculated theoretically by means of a comprehensive kinetic model. In general, the effects observed experimentally can be reproduced theoretically, and interpreted in terms of substantial sputtering at low temperatures, and dominant radiation-induced segregation at higher temperatures. In addition, a systematic fitting of model calculations to experimental measurements allowed the determination of various defect parameters.

AB - The role of irradiation temperature on implant distributions was investigated in the Au-Ni system. Gold ions were implanted at 300 keV into polycrystalline nickel samples at temperatures between 25 and 700 °C to a dose of 1016 cm-2. The spatial gold distributions were analyzed with Rutherford backscattering spectrometry, using both 1.7 and 3.0 MeV 4He, and secondary ion mass spectrometry. The results showed that the gold profiles were practically insensitive to target temperature below about 200 °C. At higher temperatures, systematic decreases in the surface and peak concentrations and longer penetration tails were observed. The evolution of the implant distribution in time and space during implantation was also calculated theoretically by means of a comprehensive kinetic model. In general, the effects observed experimentally can be reproduced theoretically, and interpreted in terms of substantial sputtering at low temperatures, and dominant radiation-induced segregation at higher temperatures. In addition, a systematic fitting of model calculations to experimental measurements allowed the determination of various defect parameters.

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VL - 51

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JO - Surface and Coatings Technology

JF - Surface and Coatings Technology

IS - 1-3

ER -

High-temperature implantation of gold into nickel

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