A.D. Marwick, Joyce C. Liu, et al.
Journal of Applied Physics
The microstructure and Cu distribution were determined for blanket and patterned Al(≤4 wt % Cu) thin films as a function of annealing. The growth of Θ-phase (Al2Cu) precipitates in blanket and patterned submicrometer-wide lines was quantified along with the Cu concentrations within the Al grains. The reliability of 0.5-μm-wide lines was found to be strongly influenced by the details of the annealing sequence; however, 1-μm-wide lines were less affected. The difference in the electromigration behavior of 0.5-μm-wide lines is shown to be due to the different film microstructures formed in the patterned lines as a function of annealing history. Specifically, the amount of Cu in the grains and the size and distribution of the Θ-phase precipitates were found to be a strong function of both the annealing conditions and the linewidth in 0.5-1-μm-thick Al(Cu) films.
A.D. Marwick, Joyce C. Liu, et al.
Journal of Applied Physics
N.A. Dodds, P.E. Dodd, et al.
IEEE TNS
E.G. Colgan, B.K. Furman, et al.
SEMI-THERM 2005
K.P. Rodbell, P.J. Ficalora, et al.
Applied Physics Letters