Electron beam lithography on curved or tilted surfaces

Simulations and experiments

Journal article (2019)

Authors

K.T. Arat ImPhys/Charged Particle Optics
A.C. Zonnevylle Raith, Best
Nikola Belic GenISys GmbH
Ulrich Hofmann GenISys GmbH
C.W. Hagen ImPhys/Charged Particle Optics
Research Group
ImPhys/Charged Particle Optics
Copyright: © 2019 K.T. Arat, A.C. Zonnevylle, Wilhelmus S.M.M. Ketelaars, Nikola Belic, Ulrich Hofmann, C.W. Hagen
DOI: https://doi.org/10.1116/1.5120632
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Published Date

2019

Language

English

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Research Group

ImPhys/Charged Particle Optics

Abstract

There is a growing interest for patterning on curved or tilted surfaces using electron beam lithography. Computational proximity correction techniques are well established for flat surfaces and perpendicular exposure, but for curved and tilted surfaces adjustments are needed as the dose distribution is no longer cylindrically symmetric with respect to the surface normal. A graphical processing unit -accelerated 3D Monte Carlo simulation, based on first-principle scattering models, is used to simulate the asymmetric dose distribution. Based on that, an approximate adjustment is made to an existing high-performance proximity effect correction (PEC) algorithm aimed at the correct exposure of a pattern of nanowires on a 17° tilted surface. It was experimentally verified that using the adjusted PEC indeed leads to a more uniform exposure on tilted surfaces.

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