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Specific Process Knowledge/Lithography/EBeamLithography/eLINE: Difference between revisions

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Thope (talk | contribs)
DCH-Employees-701, NLAB-Employees-701, NLAB-LabmanagerAllUsers, NLAB-Nlab347-labadviser-users-35231
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Writefield (WF) dimension is a trade off between beam shot precision and field stitching. The maximum writefield size is 1000x1000 µm. The beam controller has a limit of 50k addressable positions along each axis and hence for a 1000x1000 µm writefield the minimum beam position grid (pitch) is 20 nm. For a 100x100 µm writefield the minimum beam pitch is 2 nm. Thus the precision is higher for smaller writing fields. Smaller writing fields will however fracture a design into more fields and create more field boundaries with higher potential for stitching errors.
Writefield (WF) dimension is a trade off between beam shot precision and field stitching. The maximum writefield size is 1000x1000 µm. The beam controller has a limit of 50k addressable positions along each axis and hence for a 1000x1000 µm writefield the minimum beam position grid (pitch) is 20 nm. For a 100x100 µm writefield the minimum beam pitch is 2 nm. Thus the precision is higher for smaller writing fields. Smaller writing fields will however fracture a design into more fields and create more field boundaries with higher potential for stitching errors.


[[Image:WF_imagescan.png|500x500px|left|thumb|WF alignment by image scan.]]
[[Image:WF_imagescan.png|500x500px|right|thumb|WF alignment by image scan.]]
[[Image:WF_linescan.png|500x500px|right|thumb|WF alignment by line scan.]]
[[Image:WF_linescan.png|500x500px|right|thumb|WF alignment by line scan.]]


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