KeywordsCu diffusion barrier, bias temperature stress, tantalum, TaN, triangular voltage sweep AB ST RACT As a result of the continuous miniaturization of integrated circuits, width and depth of Cu interconnects are reduced for every new technology node, implying that also the Ta or TaN Cu diffusion barrier and Cu seed layer must be thinned in order to avoid top feature pinch-off during Cu electroplating [ 1]. On the other hand, a reduction ofTa or TaN film thickness may also be desirable from a cost perspective, e.g. in ICs with less aggressive scaling. Cabral et al. showed that a 1 nm TaN film prevented Cu diffusion upon annealing at temperatures below 650°C [2 ]. However, no electric fields were applied in this study, and TaN was deposited on Si. This paper reports on the Cu barrier performance of very thin Ta and TaN films (1 to 3nm) deposited by PVD DC magnetron sputtering on different types of dielectrics. Ta and TaN thicknesses were verified by transmission electron microscopy ( T EM). Metal-insulator-semiconductor (MIS) film stacks were applied as test structures (see fig. 1), and thermal and PECVD SiO z were utilized as isolators. As confirmed by FT IR measurements, they significantly differ in the availability of weakly bonded oxygen, present in form of silanol groups (see fig. 2).The barrier evaluation itself consisted of a combination of an initial thermal anneal, electrical bias temperature stress (BTS) and triangular voltage sweep ( T VS) measurements. The test structure preparation and the triangular voltage sweep ( T VS) measurement procedure applied in this study were described in detail previously [3 , 4].High temperature annealing between 350°C and 600°C shall simulate a thermal budget during manufacturing, including a reliability buffer. BTS is applied because both electrical fields and Joule heating are present in Cu interconnects during chip operation, and both are driving forces for a mobility of Cu atoms. Triangular voltage sweep ( T VS) measurements are applied for Cu detection since they are directly related to a movement of Cu ions, and the sensitivity ofTVS (1E + 10 Cu ions/cm2) is up to three orders of magnitude higher compared to analytical techniques like SIMS (1E+13-1E+14 Cu ions/cm2).Test structure, Pre-anneal
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