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Use of Monte Carlo modeling for interpreting scanning electron microscope linewidth measurements
Author(s) -
Lowney Jeremiah R.
Publication year - 1995
Publication title -
scanning
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.359
H-Index - 47
eISSN - 1932-8745
pISSN - 0161-0457
DOI - 10.1002/sca.4950170503
Subject(s) - monte carlo method , laser linewidth , scanning electron microscope , materials science , optics , enhanced data rates for gsm evolution , electron beam lithography , silicon , substrate (aquarium) , wafer , electron , electron beam induced deposition , scanning transmission electron microscopy , physics , optoelectronics , nanotechnology , resist , computer science , telecommunications , laser , statistics , mathematics , oceanography , layer (electronics) , quantum mechanics , geology
Abstract A scanning electron microscope (SEM) can be used to measure the dimensions of the microlithographic features of integrated circuits. However, without a good model of the electron‐beam/specimen interaction, accurate edge location cannot be obtained. A Monte Carlo code has been developed to model the interaction of an electron beam with one or two lines lithographically produced on a multilayer substrate. The purpose of the code is to enable one to extract the edge position of a line from SEM measurements. It is based on prior codes developed at the National Institute of Standards and Technology, but with a new formulation for the atomic scattering cross sections and the inclusion of a method to simulate edge roughness or rounding. The code is currently able to model the transmitted and backscattered electrons, and the results from the code have been applied to the analysis of electron transmission through gold lines on a thin silicon substrate, such as is used in an x‐ray lithographic mask. Significant reductions in backscattering occur because of the proximity of a neighboring line.

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