论文信息 - Optimizing hybrid metrology through a consistent multi-tool parameter set and uncertainty model

Optimizing hybrid metrology through a consistent multi-tool parameter set and uncertainty model

There has been significant interest in hybrid metrology as a novel method for reducing overall measurement uncertainty and optimizing measurement throughput (speed) through rigorous combinations of two or more different measurement techniques into a single result. This approach is essential for advanced 3-D metrology when performing model-based critical dimension measurements. However, a number of fundamental challenges present themselves with regard to consistent noise and measurement uncertainty models across hardware platforms, and the need for a standardized set of model parameters. This is of paramount concern when the various techniques have substantially different models and underlying physics. In this paper we present realistic examples using scanning electron microscopy, atomic force microscopy, and optical critical dimension (CD) methods applied to sub-20 nm dense feature sets. We will show reduced measurement uncertainties using hybrid metrology on 15 nm CD features and evaluate approaches to adapt quantitative hybrid metrology into a high volume manufacturing environment.

[1] Aaas News,et al. Book Reviews , 1893, Buffalo Medical and Surgical Journal.

[2] Hui Zhou,et al. Improving optical measurement accuracy using multi-technique nested uncertainties , 2009, Advanced Lithography.

[3] Costas J. Spanos,et al. Enhancing metrology by combining spatial variability and global inference , 2013, Advanced Lithography.

[4] Alok Vaid,et al. Hybrid metrology solution for 1X node technology , 2012, Advanced Lithography.

[5] Christophe Dezauzier,et al. 3D-AFM enhancement for CD metrology dedicated to lithography sub-28-nm node requirements , 2010, Advanced Lithography.

[6] G. G. Stokes. "J." , 1890, The New Yale Book of Quotations.

[7] Chas Archie,et al. Hybrid reference metrology exploiting patterning simulation , 2010, Advanced Lithography.

[8] Peter Ebersbach,et al. Holistic metrology approach: hybrid metrology utilizing scatterometry, critical dimension-atomic force microscope and critical dimension-scanning electron microscope , 2011 .

[9] B. M. Barnes,et al. A Bayesian statistical model for hybrid metrology to improve measurement accuracy , 2011, Optical Metrology.

[10] Hui Zhou,et al. Improving optical measurement uncertainty with combined multitool metrology using a Bayesian approach. , 2012, Applied optics.

[11] Hui Zhou,et al. Nested uncertainties and hybrid metrology to improve measurement accuracy , 2011, Advanced Lithography.

[12] J. Neter,et al. Applied Linear Regression Models , 1983 .