We present a nanomechanical device design to be used in a non-volatile mechanical memory point. The structure is composed of a suspended slender nanowire (width : 100nm, thickness 430nm length : 8 to 30μm) clamped at its both ends. Electrodes are placed on each sides of the nanowire and are used to actuate the structure (writing, erasing) and to measure the position through a capactive bridge (reading). The structure is patterned by electron beam lithography on a pre-stressed thermally grown silicon dioxide layer. When later released, the stressed material relaxes and the beam buckles in a position of lower energy. Such symmetric beams, called Euler beams, show two stable deformed positions thus form a bistable structure. This paper will present the fabrication, simulation and mechanical and electrical actuation of an in plane bistable nanowire. Final paper will include a section on FEM simulations.
@article{arxiv.0805.0889,
title = {In-Plane Bistable Nanowire For Memory Devices},
author = {B. Charlot and W. Sun and K. Yamashita and H. Fujita and H. Toshiyoshi},
journal= {arXiv preprint arXiv:0805.0889},
year = {2008}
}
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Submitted on behalf of EDA Publishing Association (http://irevues.inist.fr/handle/2042/16838)