Patent ID: 7214577

Claim:
A method of fabricating a semiconductor integrated circuit device, comprising the steps of: (a) forming an isolation groove in a silicon surface of a first major surface of a wafer, so as to divide the silicon surface into two regions which are to be first and second regions; (b) after step (a), forming a first insulating film of silicon oxide by chemical vapor deposition, in such manner that the first insulating film covers the silicon surface; (c) after step (b), planarizing the silicon surface covered with the first insulating film by removing the first insulating film outside the isolation groove with chemical mechanical polishing; (d) after step (c), forming two gate electrodes, to be N- and P-type gate electrodes, respectively over the first and second regions, each of said two gate electrodes having a silicon film to be a polysilicon conductive film; (e) forming N-type source and drain regions in the first region, said N-type source and drain regions to constitute a first insulated gate field effect transistor together with the N-type gate electrode and a pair of first insulating side walls; (f) forming P-type source and drain regions in the second region, said P-type source and drain regions to constitute a second insulated gate field effect transistor together with the P-type gate electrode and a pair of second insulating side walls; (g) after steps (d), (e), and (f), exposing surface portions of the silicon surface over said N-type and P-type source regions and drain regions; (h) after step (g), depositing a Co film covering at least the exposed surface portions, by sputtering, from a Co sputtering target which, apart from carbon and oxygen impurities, is at least 99.99 wt. % pure, wherein a sum of Fe and Ni in the Co sputtering target is not greater than 50 ppm by weight, and wherein the sputtering is performed in such a manner that the composition of the deposited Co film is substantially the same as that of the Co sputtering target; (i) after step (h), performing first rapid thermal annealing at a first temperature to the first major surface formed with the Co film so as to form Co monosilicide films over the surface portions, leaving a remaining Co film not formed into Co monosilicide, wherein the first temperature is a temperature that creep-up across the first and second insulating side walls substantially does not take place; (j) after step (i), removing the remaining Co film by wet etching; and (k) after step (j), performing second rapid thermal annealing at a second temperature higher than the first temperature to the first major surface so as to form Co disilicide films over the surface portions.