2014
DOI: 10.1117/1.jmm.13.3.031306
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Demonstration of electronic design automation flow for massively parallel e-beam lithography

Abstract: For proximity effect correction in 5 keV e-beam lithography, three elementary building blocks exist: dose modulation, geometry (size) modulation, and background dose addition. Combinations of these three methods are quantitatively compared in terms of throughput impact and process window (PW). In addition, overexposure in combination with negative bias results in PW enhancement at the cost of throughput. In proximity effect correction by over exposure (PEC-OE), the entire layout is set to fixed dose and geomet… Show more

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Cited by 8 publications
(8 citation statements)
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“…It was demonstrated previously that by a combination of over exposure of a pattern with negative bias, throughput can be exchanged for Exposure Latitude (EL) [3]. The key observation for the alternative stitching method proposed below is that the stitching region is by its definition passed by two beams and without cost in throughput, a dose can be deposited that is 2x higher than outside the stitching region.…”
Section: Alternative Stitching Methodsmentioning
confidence: 92%
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“…It was demonstrated previously that by a combination of over exposure of a pattern with negative bias, throughput can be exchanged for Exposure Latitude (EL) [3]. The key observation for the alternative stitching method proposed below is that the stitching region is by its definition passed by two beams and without cost in throughput, a dose can be deposited that is 2x higher than outside the stitching region.…”
Section: Alternative Stitching Methodsmentioning
confidence: 92%
“…[3]) a Monte Carlo (MC) approach is taken, as on top of the Process Window parameters exposure dose and tool spot size (the e-beam equivalent of focus) the beam to beam position error is varied. For each simulation site the CDU, expressed as |µ|+3σ deviation from target CD, is calculated over 1000 MC runs.…”
Section: Stitching Performance Comparison In Metal Layermentioning
confidence: 99%
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“…In this paper we express the widths of the Gaussians in FW50 (the diameter that contains half the current) and use, close to the values in [3]: FW50 α = 26.1 nm, FW50 β = 487 nm and η = 0.35 at a constant resist threshold. The writing spot, FW50 α , consists of the quadratic addition of the nominal tool spot size of 23 nm and a resist contribution of 12.3 nm.…”
Section: E-beam Direct Write Lithographymentioning
confidence: 98%
“…The Point Spread Function of the MAPPER tool is of double Gaussian form [3][4]. The first Gaussian comprises the principal writing spot: the contribution of the incident beam, forward scattering of the electrons in resist and acid diffusion in resist.…”
Section: E-beam Direct Write Lithographymentioning
confidence: 99%