Title :
Improvements in simulation of 2D implantation profiles
Author :
Ryssel, H. ; Gong, L. ; Lorenz, J.
Author_Institution :
Fraunhofer Arbeitsgrupper fuer Integrierte Schaltungen, Erlangen, West Germany
Abstract :
Shrinking device dimensions require the reduction of high-temperature steps or their replacement by RTA (rapid thermal annealing). Therefore, an accurate knowledge of implanted dopant profiles becomes more and more important. This means that a very good profile description is required, especially in case of implantation through thin layers, e.g. a scattering oxide, or near nonvertical mask edges, e.g. a photoresist edge, and that the lateral spread and its depth dependence must be modeled accurately. An improved multilayer model for implantation into two-layer structures is introduced. An improved experimental method for the measurement of 2D implantation profiles is presented. The method yields up to five equiconcentration lines within two scanning electron micrographs. It therefore allows the calculation of implantation parameters in two dimensions
Keywords :
doping profiles; impurity distribution; ion implantation; semiconductor device models; semiconductor doping; simulation; 2D implantation profiles; depth dependence; dopant profiles; lateral spread; measurement method; multilayer model; simulation; two-layer structures; Analytical models; Boron; Computational geometry; Crystallization; Ion implantation; Nonhomogeneous media; Nuclear electronics; Resists; Semiconductor process modeling; Temperature;
Conference_Titel :
VLSI Technology, Systems and Applications, 1989. Proceedings of Technical Papers. 1989 International Symposium on
Conference_Location :
Taipei
DOI :
10.1109/VTSA.1989.68592
