The overlay accuracy for current technology node of 3-D structures has to be precise down to a single-digit nanometer range. At those tiny dimensions, overlay errors can occur in the fabrication process ow, thereby impacting the chip yield and performance. With the current CMOS logic road-map, which involves multiple patterning, achieving more stringent overlay requirements becomes even more challenging. With multiple alignment layers it becomes difficult to have a reference metrology to estimate the error induced. Subsurface Scanning Probe Microscopy involving frequency-mixing scheme is a candidate that can cater to this need of reference metrology due to its ability to measure through several layers non-destructively. In this work, metrology investigation has been carried out on a wafer in which programmed overlay error has been introduced. SSPM is used to estimate the variation in overlay introduced, shedding light on achievable sensitivity and performance while scanning through different layers.
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