Advanced diffraction-based overlay for double patterning
2010
Diffraction based overlay (DBO) technologies have been developed to address the tighter overlay control
challenges as the dimensions of integrated circuit continue to shrink. Several studies published recently have
demonstrated that the performance of DBO technologies has the potential to meet the overlay metrology budget for
22nm technology node. However, several hurdles must be cleared before DBO can be used in production. One of the
major hurdles is that most DBO technologies require specially designed targets that consist of multiple measurement
pads, which consume too much space and increase measurement time. A more advanced spectroscopic ellipsometry (SE)
technology-Mueller Matrix SE (MM-SE) is developed to address the challenge. We use a double patterning sample to
demonstrate the potential of MM-SE as a DBO candidate. Sample matrix (the matrix that describes the effects of the
sample on the incident optical beam) obtained from MM-SE contains up to 16 elements. We show that the Mueller
elements from the off-diagonal 2x2 blocks respond to overlay linearly and are zero when overlay errors are absent. This
superior property enables empirical DBO (eDBO) using two pads per direction. Furthermore, the rich information in
Mueller matrix and its direct response to overlay make it feasible to extract overlay errors from only one pad per
direction using modeling approach (mDBO). We here present the Mueller overlay results using both eDBO and mDBO and compare the results with image-based overlay (IBO) and CD-SEM results. We also report the tool induced shifts (TIS) and dynamic repeatability.
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