Computational nanometrology of line-edge roughness: noise effects, cross-line correlations and the role of etch transfer

Vassilios Constantoudis; George Papavieros; Gian Lorusso; Vito Rutigliani; Frieda Van Roey; Evangelos Gogolides

doi:10.1117/12.2306282

20 March 2018 Computational nanometrology of line-edge roughness: noise effects, cross-line correlations and the role of etch transfer

Vassilios Constantoudis, George Papavieros, Gian Lorusso, Vito Rutigliani, Frieda Van Roey, Evangelos Gogolides

Author Affiliations +

Proceedings Volume 10589, Advanced Etch Technology for Nanopatterning VII; 105890Y (2018) https://doi.org/10.1117/12.2306282
Event: SPIE Advanced Lithography, 2018, San Jose, California, United States

Abstract

The aim of this paper is to investigate the role of etch transfer in two challenges of LER metrology raised by recent evolutions in lithography: the effects of SEM noise and the cross-line and edge correlations.

The first comes from the ongoing scaling down of linewidths, which dictates SEM imaging with less scanning frames to reduce specimen damage and hence with more noise. During the last decade, it has been shown that image noise can be an important budget of the measured LER while systematically affects and alter the PSD curve of LER at high frequencies. A recent method for unbiased LER measurement is based on the systematic Fourier or correlation analysis to decompose the effects of noise from true LER (Fourier-Correlation filtering method). The success of the method depends on the PSD and HHCF curve. Previous experimental and model works have revealed that etch transfer affects the PSD of LER reducing its high frequency values. In this work, we estimate the noise contribution to the biased LER through PSD flat floor at high frequencies and relate it with the differences between the PSDs of lithography and etched LER. Based on this comparison, we propose an improvement of the PSD/HHCF-based method for noise-free LER measurement to include the missed high frequency real LER.

The second issue is related with the increased density of lithographic patterns and the special characteristics of DSA and MP lithography patterns exhibits. In a previous work, we presented an enlarged LER characterization methodology for such patterns, which includes updated versions of the old metrics along with new metrics defined and developed to capture cross-edge and cross-line correlations. The fundamental concept has been the Line Center Roughness (LCR), the edge c-factor and the line c-factor correlation function and length quantifying the line fluctuations and the extent of cross-edge and cross-line correlations. In this work, we focus on the role of etch steps on cross-edge and line correlation metrics in SAQP data. We find that the spacer etch steps reduce edge correlations while etch steps with pattern transfer increase these. Furthermore, the density doubling and quadrupling increase edge correlations as well as cross-line correlations.

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Vassilios Constantoudis, George Papavieros, Gian Lorusso, Vito Rutigliani, Frieda Van Roey, and Evangelos Gogolides "Computational nanometrology of line-edge roughness: noise effects, cross-line correlations and the role of etch transfer", Proc. SPIE 10589, Advanced Etch Technology for Nanopatterning VII, 105890Y (20 March 2018); https://doi.org/10.1117/12.2306282

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