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Literature DB >> 28663666

Optimizing noise for defect analysis with through-focus scanning optical microscopy.

Abstract

Through-focus scanning optical microscopy (TSOM) shows promise for patterned defect analysis, but it is important to minimize total system noise. TSOM is a three-dimensional shape metrology method that can achieve sub-nanometer measurement sensitivity by analyzing sets of images acquired through-focus using a conventional optical microscope. Here we present a systematic noise-analysis study for optimizing data collection and data processing parameters for TSOM and then demonstrate how the optimized parameters affect defect analysis. We show that the best balance between signal-to-noise performance and acquisition time can be achieved by judicious spatial averaging. Correct background-signal subtraction of the imaging-system inhomogeneities is also critical, as well as careful alignment of the constituent images used in differential TSOM analysis.

Entities: Chemical Disease

Keywords: TSOM; defect analysis; noise optimization

Year: 2016 PMID： 28663666 PMCID： PMC5486224 DOI： 10.1117/12.2220679

Source DB: PubMed Journal: Proc SPIE Int Soc Opt Eng ISSN： 0277-786X

8 in total

1. The European nanometrology landscape.

Authors: Richard K Leach; Robert Boyd; Theresa Burke; Hans-Ulrich Danzebrink; Kai Dirscherl; Thorsten Dziomba; Mark Gee; Ludger Koenders; Valérie Morazzani; Allan Pidduck; Debdulal Roy; Wolfgang E S Unger; Andrew Yacoot
Journal: Nanotechnology Date: 2011-01-07 Impact factor: 3.874

2. Through-focus scanning optical microscopy (TSOM) considering optical aberrations: practical implementation.

Authors: Maxim Ryabko; Alexey Shchekin; Sergey Koptyaev; Alexey Lantsov; Anton Medvedev; Alexander Shcherbakov; Sang Yoon Oh
Journal: Opt Express Date: 2015-12-14 Impact factor: 3.894

3. Fourier domain optical tool normalization for quantitative parametric image reconstruction.

Authors: Jing Qin; Richard M Silver; Bryan M Barnes; Hui Zhou; Francois Goasmat
Journal: Appl Opt Date: 2013-09-10 Impact factor: 1.980

4. Method for optical inspection of nanoscale objects based upon analysis of their defocused images and features of its practical implementation.

Authors: M V Ryabko; S N Koptyaev; A V Shcherbakov; A D Lantsov; S Y Oh
Journal: Opt Express Date: 2013-10-21 Impact factor: 3.894

3 in total

Optimizing noise for defect analysis with through-focus scanning optical microscopy.

1. The European nanometrology landscape.

2. Through-focus scanning optical microscopy (TSOM) considering optical aberrations: practical implementation.

3. Fourier domain optical tool normalization for quantitative parametric image reconstruction.

4. Method for optical inspection of nanoscale objects based upon analysis of their defocused images and features of its practical implementation.

5. Through-focus scanning-optical-microscope imaging method for nanoscale dimensional analysis.

6. Motion-free all optical inspection system for nanoscale topology control.

7. Noise analysis for through-focus scanning optical microscopy.

8. Optimizing Hybrid Metrology: Rigorous Implementation of Bayesian and Combined Regression.

1. Optical microscope illumination analysis using through-focus scanning optical microscopy.

2. Fidelity test for through-focus or volumetric type of optical imaging methods.

3. Detecting nanoscale contamination in semiconductor fabrication using through-focus scanning optical microscopy.