Papers Published

1. Jin, S. and Mavoori, H. and Kim, J. and Aksyuk, V.A., Control of microelectromechanical systems membrane curvature by silicon ion implantation, Appl. Phys. Lett. (USA), vol. 83 no. 12 (22), pp. 2321 - 3 [1.1611639] .
   (last updated on 2007/11/03)

   Abstract:
   Thin silicon membranes in microelectromechanical systems (MEMS) optical devices such as beam-steering, movable mirrors may exhibit undesirable curvature when their surface is metallized with light-reflecting metals to enhance optical performance. We have applied Si⁺ ion implantations at dose levels of 0.4-5×10¹⁶/cm² into the gold metallization layer to successfully reduce the mirror curvature as well as the degree of its temperature-dependent changes. The curvature change as well as the temperature dependence is found to be dependent on the implantation dose. The mechanism of the observed curvature flattening effect is attributed mostly to the induced compressive stress in gold metallization caused by the insertion of foreign implanted atoms of silicon. Such a Si implantation approach can be useful as a means for post-fabrication correction of unwanted curvature in MEMS membranes, as well as a technique to intentionally introduce a desired degree of curvature if needed. A convenient blanket implantation process can be utilized with minimal contamination problems as Si is a common element already present in the MEMS

   Keywords:
   elemental semiconductors;gold;integrated circuit metallisation;ion implantation;micro-optics;micromechanical devices;micromirrors;silicon;