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Motion-free TSOM using a deformable mirror

Authors
Lee, Jun HoYou, Byeong GeonPark, Shin-WoongKim, Hwi
Issue Date
25-5월-2020
Publisher
OPTICAL SOC AMER
Citation
OPTICS EXPRESS, v.28, no.11, pp.16352 - 16362
Indexed
SCIE
SCOPUS
Journal Title
OPTICS EXPRESS
Volume
28
Number
11
Start Page
16352
End Page
16362
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/55638
DOI
10.1364/OE.394939
ISSN
1094-4087
Abstract
Through-focus scanning optical microscopy (TSOM) is a model-based optical metrology method that involves the scanning of a target through the focus of an optical microscope. Unlike a conventional optical microscope that directly extracts the diffraction-limited optical information from a single in-focus image, the TSOM method extracts nanometer scale sensitive information by matching the target TSOM data/image to reference TSOM data/images that are either experimentally or computationally collected. Therefore, the sensitivity and accuracy of the TSOM method strongly depends on the similarities between the conditions in which the target and reference TSOM images are taken or simulated, especially the lateral instability during through-focus scanning. As a remedy to the lateral instability, we proposed the application of adaptive optics to the through-focus scanning operation and initially developed a closed-loop system with a tip/tilt mirror and a Shack-Hartmann sensor, with which we were able to keep the plane position within peak-to-valley (PV) 33 nm. We then further developed a motion-free TSOM tool reducing the instability down to practically zero by the replacement of the tip/tilt mirror with a deformable mirror that performs through-focus scanning by deforming its mirror surface. The motion-free TSOM tool with a x 50 (NA 0.55) objective lens could provide a scanning range of up to +/- 25 mu m with a minimum step of 25 nm at a maximum update rate of 4 kHz. The tool was demonstrated to have a recognition accuracy of < 4 nm for critical dimension (CD) values in the range of 60 similar to 120 nm with a reference TSOM image library generated by a Fourier modal method matching various observations conditions. (C) 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement
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