2010
DOI: 10.1117/12.865708
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Multi-shaped e-beam technology for mask writing

Abstract: Photomask lithography for the 22nm technology node and beyond requires new approaches in equipment as well as mask design. Multi Shaped Beam technology (MSB) for photomask patterning using a matrix of small beamlets instead of just one shaped beam, is a very effective and evolutionary enhancement of the well established Variable Shaped Beam (VSB) technique. Its technical feasibility has been successfully demonstrated [2] . One advantage of MSB is the productivity gain over VSB with decreasing critical dimensio… Show more

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Cited by 4 publications
(2 citation statements)
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“…A larger number of beamlets with a smaller maximum beamlet size leads to a higher shot count reduction for higher technology nodes; especially for the 1x direct write application. As an example, a maximum beamlet size of 400nm in a 8x8 beamlet matrix will allow an optimum shot count reduction and throughput gain for a 32nm node mask write application whereas a 50nm maximum beamlet size in a larger array of 32x32 beamlets will be the optimum setup for less than 22nm direct write applications [5].…”
Section: Data Preparationmentioning
confidence: 99%
“…A larger number of beamlets with a smaller maximum beamlet size leads to a higher shot count reduction for higher technology nodes; especially for the 1x direct write application. As an example, a maximum beamlet size of 400nm in a 8x8 beamlet matrix will allow an optimum shot count reduction and throughput gain for a 32nm node mask write application whereas a 50nm maximum beamlet size in a larger array of 32x32 beamlets will be the optimum setup for less than 22nm direct write applications [5].…”
Section: Data Preparationmentioning
confidence: 99%
“…Wafers/mask set There are attempts to take advantage of the much higher throughput enabled by multiple e-beam technology to speed up maskwriting and prototyping 5,6 . There are also efforts to develop systems capable of high volume manufacturing (HVM) of the most critical layers that have exhausted the economical imaging capability of optical lithography to mix with layers that can be economically exposed with optical lithography.…”
Section: Introductionmentioning
confidence: 99%