In situ study of dislocation behavior in columnar Al thin film on Si substrate during thermal cycling

被引:0
|
作者
Allen, Charles W. [1 ]
Schroeder, Herbert [1 ]
Hiller, Jon M. [1 ]
机构
[1] Argonne Natl Lab, Argonne, United States
来源
Materials Research Society Symposium - Proceedings | 2000年 / 594卷
关键词
Aluminum - Crystal microstructure - Dislocations (crystals) - Grain growth - In situ processing - Polycrystals - Silicon - Substrates - Thermal cycling - Transmission electron microscopy;
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摘要
In situ transmission electron microscopy (150 kV) has been employed to study the evolution of dislocation microstructures during relatively rapid thermal cycling of a 200 nm Al thin film on Si substrate. After a few thermal cycles between 150 and 500 °C, nearly stable Al columnar grain structure is established with average grain less than a μm. On rapid cooling (3-30+ °C/s) from 500 °C, dislocations first appear at a nominal temperature of 360-380 °C, quickly multiplying and forming planar glide plane arrays on further cooling. From a large number of such experiments we have attempted to deduce the dislocation evolution during thermal cycling in these polycrystalline Al films and to account qualitatively for the results on a simple dislocation model.
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页码:123 / 128
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