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Please use this identifier to cite or link to this item: http://hdl.handle.net/2080/344

Title: A Numerical Model for Etching through a Circular hole
Authors: Rath, P
Chai, J C
Zheng, H
Lam, Y C
Murukeshan, V M
Issue Date: 2006
Publisher: Institute of Physics
Citation: Journal of Physics: Conference Series, Vol 34, P 417–422
Abstract: A numerical model based on the total concentration of etchant is proposed to model the wet chemical etching through a circular hole. The reaction at the etchant-substrate interface is assumed to be infinitely fast i.e. etching is controlled by the diffusion of etchant to the interface. The proposed model is based on a fixed-grid approach analogous to the enthalpy method. The total concentration of etchant is the sum of the unreacted etchant concentration and the reacted etchant concentration. The reacted concentration of etchant is a measure of the etchfront position during etching. The governing mass diffusion equation based on the total concentration of etchant includes the interface condition. The etchfront position is found implicitly using the proposed approach. The computational domain is fixed, which includes the whole etchant and substrate domain including the mask region. For demonstration purposes, the finite volume method is used to solve the governing mass diffusi...
Description: Copyright for this article belongs to Institue of Physics
URI: http://hdl.handle.net/2080/344
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