| 摘要 |
In a conventional evaluation method of IG effectivity on Cu in semiconductor silicon substrates, it is required to actually conduct the device process, or a great deal of time, manpower and expenses for manufacturing a MOS device for dielectric breakdown estimation and the like are needed, but in the present invention, the problem was solved by experimentally finding in advance the optimum ranges of the diagonal length and density of oxygen precipitates which make the IG effectivity on Cu favorable, and conducting a heat treatment for the addition of IG effectivity based on a simulation by calculations using Fokker-Planck equations so that the diagonal length and density of plate-like precipitates fall within the optimum ranges.
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