Spectroscopic anisotropy micro-ellipsometry for determination of lateral dimensions of form birefringent structures

Spectroscopic anisotropy micro-ellipsometry (SAME) is employed for a rapid and precise measurement of lateral dimensions of periodic structures showing form birefringence. For this, the ellipsometric parameters Δ and Ψ were measured as a function of the Euler angle α which describes sample rotation...

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Bibliographic Details
Published in:Thin solid films 2002-07, Vol.414 (2), p.246-250
Main Authors: Bloeß, H, Schultze, J.W, Michaelis, A, Genz, O, Mantz, U, Ballantyne, G
Format: Article
Language:English
Subjects:
Anisotropy
Ellipsometry
Exact sciences and technology
Form birefringence
Instruments, apparatus, components and techniques common to several branches of physics and astronomy
Optical instruments, equipment and techniques
Physics
Polarimeters and ellipsometers
Structural properties
Very large scale integration
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Summary:Spectroscopic anisotropy micro-ellipsometry (SAME) is employed for a rapid and precise measurement of lateral dimensions of periodic structures showing form birefringence. For this, the ellipsometric parameters Δ and Ψ were measured as a function of the Euler angle α which describes sample rotation about the surface normal. Analysis of the resulting Δ(α) and Ψ(α)-curves, the so-called SAME curves, allows determination of the components of the permittivity tensor of the form birefringent pattern in the UV–VIS range. From this, the volume fractions of the pattern constituents can be deduced. Once the volume fractions are known the critical dimensions (CD) can be calculated using the pitch of the periodic structures as an additional input. As an example, results for determination of CD of sub-micron lithographic patterns used in dynamic random access memory fabrication are given. The lateral pattern dimensions averaged over the ellipsometer spot size of approximately 120 μm could be determined with an accuracy in the nm range either for lines and spaces—by quantitative simulation of the SAME curve or for more complex pattern, e.g. deep trench patterns, by applying empirical calibration curves of Δ(α) or λ max(Ψ).
ISSN:0040-6090
1879-2731
DOI:10.1016/S0040-6090(02)00484-4