System for scatterometric measurements and applications

Details System for scatterometric measurements and applications System for scatterometric measurements and applications

2009-03-24

2010-10-26

Lauchman, L. G (Department: 2877)

Optics: measuring and testing

Dimension

C356S630000, C356S369000, C356S237500, C250S225000

Reexamination Certificate

active

07821654

ABSTRACT:
Instead of constructing a full multi-dimensional look-up-table as a model to find the critical dimension or other parameters in scatterometry, regression or other optimized estimation methods are employed starting from a “best guess” value of the parameter. Eigenvalues of models that are precalculated may be stored and reused later for other structures having certain common characteristics to save time. The scatterometric data that is used to find the value of the one or more parameter can be limited to those at wavelengths that are less sensitive to the underlying film characteristics. A model for a three-dimensional grating may be constructed by slicing a representative structure into a stack of slabs and creating an array of rectangular blocks to approximate each slab. One dimensional boundary problems may be solved for each block which are then matched to find a two-dimensional solution for the slab. A three-dimensional solution can then be constructed from the two-dimensional solutions for the slabs to yield the diffraction efficiencies of the three-dimensional grating. This model can then be used for finding the one or more parameters of the diffracting structure in scatterometry. Line roughness of a surface can be measured by directing a polarized incident beam in an incident plane normal to the line grating and measuring the cross-polarization coefficient. The value of the one or more parameters may then be supplied to a stepper or etcher to adjust a lithographic or etching process.

REFERENCES:
patent: 5608526 (1997-03-01), Piwonka-Corle et al.
patent: 5739909 (1998-04-01), Blayo et al.
patent: 5751427 (1998-05-01), De Groot
patent: 5900939 (1999-05-01), Aspnes et al.
patent: 5963329 (1999-10-01), Conrad et al.
patent: 5978074 (1999-11-01), Opsal et al.
patent: 6097488 (2000-08-01), Grek et al.
patent: 6268916 (2001-07-01), Lee et al.
patent: 6483580 (2002-11-01), Xu et al.
patent: 6657736 (2003-12-01), Finarov et al.
patent: 6728663 (2004-04-01), Krukar et al.
patent: 6768967 (2004-07-01), Johnson et al.
patent: 6900892 (2005-05-01), Shchegrov et al.
patent: 2004/0107066 (2004-06-01), Poola et al.
patent: WO99/45340 (1999-09-01), None
U.S. Appl. No. 60/224,451, filed Aug. 10, 2000, to Stanke et al., cited in USP 6,768,967, 28 pgs.
International Search Report from corresponding PCT Appln. PCT/US01/30063, dated Dec. 21, 2001, 4 pages.
International Preliminary Examination Report from corresponding PCT Appln. PCT/US01/30063, dated Jan. 16, 2003, 6 pages.
Written Opinion from corresponding PCT Appln. PCT/US01/30063, dated Sep. 18, 2002, 5 pages.
International Application Pub. No. WO02/50501 A1, published with International Search Report on Jun. 27, 2002.
International Search Report for PCT application No. PCT/US01/49001 dated Apr. 18, 2002, 6 pages.
Patent Search conducted on Aug. 1, 2000, 53 pages.
Aspnes, D.E., “Effects of component optical activity in data reduction and calibration of rotating-analyzer ellipsometers”, Journal of Optical Society of America, vol. 64, No. 6, Jun. 1974, pp. 812-819.
Azzam, R. M .A., “Ellipsometry”, “Handbook of Optics, Vol. 2, Devices, Measurements and Properties”, Second Edition, Optical Society of America, McGraw Hill, Inc. 1995, 27 pages.
Blayo et al., “Ultraviolet-Visible Ellipsometry for Process Control During the Etching of Submicrometer Features” J. Opt. Soc. Am. A., vol. 12, No. 3, Mar. 1995, pp. 591-599.
Chipman, “Polarimetry”, Handbook of Optics, Vol. 2, Devices, Measurements and Properties, Second Edition, Optical Society of America, McGraw Hill, Inc. 1995, 37 pages.
Collins, R. W., “Automatic rotating element ellipsometers: Calibration, operation, and real-time applications” Rev. Sci Instrum. 61, (8), Aug. 1990, pp. 2029-2062.
Crandall et al., “Polarization aberrations of crossed folding mirrors”,SPIE, vol. 2537, Aug. 1995, pp. 83-93.
Li, “Formulation and Comparison of Two Recursive Matrix Algorithms for Modeling Layered Diffraction Gratings”, J. Opt. Soc. Am. A/vol. 13, No. 5, May 1996, pp. 1024-1035.
Li, “Multilayer Modal Method for Diffraction Gratings of Arbitrary Profile, Depth, and Permittivity”, J. Opt. Soc. Am. A./vol. 10, No. 12, Dec. 1993, pp. 2581-2591.
Moharam et al., “Formulation for Stable and Efficient Implementation of the Rigorous Coupled-Wave Analysis of Binary Gratings”, J. Opt. Soc. Am. A./vol. 12, No. 5, May 1995, pp. 1068-1076.
Moharam et al., “Rigorous coupled-wave analysis of planar-grating diffraction”, SPIE: vol. 71, No. 7, Jul. 1981, pp. 811-818.
Moharam, “Coupled-Wave Analysis of Two-Dimensional Dielectric Gratings”, SPIE: vol. 883, Holographic Optics: Design and Applications (1988), pp. 8-11.
Schramm et al., “Algorithm Implementation and Techniques for Providing More Reliable Overlay Measurements and Better Tracking of the Shallow Trench Isolation (STI) Process”, SPIE: Conference on Metrology, Inspection, and Process Control of Microlithography XIII., Mar. 1999, pp. 116-122.
Yasuda and Aspnes “Optical-standard surfaces of single-crystal silicon for calibrating ellipsometers and reflectometers”, Applied Optics, vol. 33, No. 31, Nov. 1994, Optical Society of America, pp. 7435-7437.

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