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| | The stage alignment test shows a relatively good repeatability of the stage. The X-axis is clearly more accurate than the Y-axis, as evidenced by the relatively large deviation on the Y-axis values. The raw data shows that all positional errors are within ±0.3µm, mainly due to the Y-shifts on the Y-axis being ~0.2µm larger than in the other positions. |
| | <br>The field alignment test shows much tighter values, and the errors represent the true error on the camera offset, i.e. the shift that can be corrected in the machine configuration. |
| | <br>The alignment test with 4 alignment marks mimics the shift from the field alignment test, but the deviation on the Y-axis is very large, probably due to the surprising -40ppm scaling measured by the alignment routine. Keep in mind that the wafer has not been unloaded between the two exposures. Something is going on with the Y-axis. |
| | <br>Aligning with 2 marks on the X-axis seems to fix this problem, and shows an average error similar to the camera offset, with a tight distribution across the wafer. However, aligning using 2 marks on the Y-axis introduces a large shift in Y. This shift is repeated if 2 alignment marks along the X-axis on the top half of the wafer is used, but it is fixed if 2 marks along the X-axis on the bottom half are used, or if 2 marks on the Y-axis is used with the first mark on the bottom half of the wafer. Again, there seems to be something strange going on with the Y-axis. |
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| In the MLA3-MLA1 alignment tests, the design consists of ±5µm verniers with 0.25µm resolution along the X and Y axis placed in a 3 by 3 matrix covering a 60mm by 60mm area centered on the wafer. The first layer with linear scales was printed in MLA3 as QC test wafers a long time ago and subsequently patterned using lift-off of gold. These wafers are coated with resist, the second layer with vernier scales is printed in MLA1, and then the sample is developed. | | In the MLA3-MLA1 alignment tests, the design consists of ±5µm verniers with 0.25µm resolution along the X and Y axis placed in a 3 by 3 matrix covering a 60mm by 60mm area centered on the wafer. The first layer with linear scales was printed in MLA3 as QC test wafers a long time ago and subsequently patterned using lift-off of gold. These wafers are coated with resist, the second layer with vernier scales is printed in MLA1, and then the sample is developed. |
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| <span style="color:red">OLD CONTENT:</span>
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| In the overlay test, two alignment accuracies are assessed: The machine-to-self overlay accuracy (MLA-MLA), and the machine-to-machine (MA6-MLA) overlay accuracy. Because alignment is possible using two marks or four marks, both are tested in each case. Exposing the first print with or without flat alignment was also tested, but no significant effect was observed.
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| In the MLA-MLA overlay test, the design is the same as for stitching; ±5µm and ±1µm verniers along the X and Y axis placed in a 3 by 3 matrix covering a 60mm by 60mm area centered on the wafer. The sample is loaded, and the first layer (the linear scales) is printed. The sample is unloaded and developed. The second layer (the vernier scales) is aligned to marks contained in the first layer, and then the sample is developed again. The alignment marks used for 2 mark alignment are placed 60mm apart on the X axis, while the marks used for 4 mark alignment are placed at the corners of a 60mm by 30mm rectangle.
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| The results in the table below show an alignment error of -2µm in X. They also show that including the scaling and shearing of the axes calculated by the machine from alignment to four marks in the exposure only seems to introduce a gain error in Y. However, if the wafer has significant bow or other distortions due to processing of the first layer, scaling and/or shearing correction may be necessary.
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| <br/>Since the alignment error in X seems so consistent, the machine was calibrated by correcting the X-axis beam off-set 2µm in the machine configuration files. As seen below, this removed the alignment error, and suggests that the machine-to-self overlay accuracy of the Aligner: Maskless 01 is ±0.5µm or better.
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| {|border="1" cellspacing="0" cellpadding="3" style="text-align:center;"
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| |-
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| |-
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| |-style="background:silver; color:black"
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| !colspan="2"|MLA-MLA
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| !Scaling [ppm]
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| !Shearing [mRad]
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| !Misalignment [µm]
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| !Translation [µm]
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| !Run-out [ppm]
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| !Rotation [ppm]
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| |-
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| |-
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| |-style="background:WhiteSmoke; color:black"
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| |rowspan="2"|2 alignment marks
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| (three samples)
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| |'''X'''
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| |NA
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| |rowspan="2"|NA
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| | -2.08±0.25
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| | -2.07±0.25
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| | -2.31±8.33
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| | 1.02±1.67
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| |-
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| |-style="background:WhiteSmoke; color:black"
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| |'''Y'''
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| | NA
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| | -0.33±0.18
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| | -0.34±0.19
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| | 1.20±1.67
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| | -0.46±5.89
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| |-
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| |-style="background:WhiteSmoke; color:black"
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| |rowspan="2"|4 alignment marks
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| (three samples)
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| |'''X'''
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| | 1±2
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| |rowspan="2" align="center"|0.002±0.001
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| | -2.08±0.25
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| | -2.08±0.25
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| | -3.70±8.33
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| | 0.56±1.67
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| |-
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| |-style="background:WhiteSmoke; color:black"
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| |'''Y'''
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| | -12±1
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| | -0.22±0.35
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| | -0.21±0.08
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| | -6.30±1.67
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| | -0.93±5.89
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| |-
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| |-style="background:WhiteSmoke; color:black"
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| |rowspan="2"|2 alignment marks
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| after calibration
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| (three samples)
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| |'''X'''
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| |NA
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| |rowspan="2"|NA
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| | -0.22±0.25
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| | -0.19±0.19
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| | 1.85±2.08
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| | -0.09±2.92
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| |-style="background:WhiteSmoke; color:black"
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| |'''Y'''
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| | NA
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| | -0.28±0.38
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| | -0.28±0.13
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| | 4.35±5.97
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| | -0.09±2.64
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| |}
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| In the MA6-MLA overlay test, a mask from an existing design (GreenBelt METAL v2, dark field) is reused to print the first layer using the Aligner: MA6-2, and the sample is developed. The second layer is aligned and printed in Aligner: Maskless 01, using a design containing four sets of ±5 vernier scales located at the corners of a ~90mm by ~3mm rectangle, before being developed again. For 2 mark alignment, the original alignment marks at X±~43mm are used. Since only two alignment marks exist in the original design, four corners (positioned in a ~60mm by ~60mm square pattern) are used for manual alignment in the 4 mark test. Using corners rather than crosses reduces the accuracy of the alignment, as the positions of corners are subject to shifts due to bias in the first print lithography.
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| The results in the table below reproduce the alignment error in X seen in the machine-to-self overlay tests (should be better now that the machine has been calibrated). Due to the close proximity of the verniers in Y, run-out and rotation have not been calculated for that axis. But the X axis shows some run-out, consistent with alignment between two stages (the mask writer and the maskless aligner) without scaling compensation. The fact that using scaling and shearing compensation doesn't remove this gain, and seems to add a significant rotation error, is probably more due to the alignment "marks" used than to the machine itself. More tests using a purpose-designed mask would have to be conducted in order to estimate the machine-to-machine overlay accuracy of the Aligner: Maskless 01.
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| {|border="1" cellspacing="0" cellpadding="3" style="text-align:center;"
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| |-
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| |-style="background:silver; color:black"
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| !colspan="2"|MA6-MLA
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| !Scaling [ppm]
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| !Shearing [mRad]
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| !Misalignment [µm]
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| !Translation [µm]
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| !Run-out [ppm]
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| !Rotation [ppm]
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| |-
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| |-
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| |-style="background:WhiteSmoke; color:black"
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| |rowspan="2"|2 alignment marks
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| |'''X'''
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| |NA
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| |rowspan="2"|NA
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| | -1.50±0.75
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| | -1.50±0.25
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| | 6.94±5.56
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| | 2.78±3.89
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| |-
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| |-style="background:WhiteSmoke; color:black"
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| |'''Y'''
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| | NA
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| | 0.00±0.25
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| | 0.00±0.25
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| | NA
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| | NA
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| |-
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| |-style="background:WhiteSmoke; color:black"
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| |rowspan="2"|4 alignment marks
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| |'''X'''
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| | -8
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| |rowspan="2" align="center"|0.005
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| | -1.75±0.63
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| | -1.69±0.25
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| | 6.25±5.56
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| | -12.5±3.89
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| |-
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| |-style="background:WhiteSmoke; color:black"
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| |'''Y'''
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| | 13
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| | 0.25±0.63
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| | 0.19±0.56
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| | NA
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| | NA
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| |} | | |} |
