J. Stulemeijer scite author profile

This paper aims to find all static states, including stable and unstable states, of electrostatically actuated microelectromechanical systems (MEMS) device models. We apply the numerical path-following technique to solve for the curve connecting the static states. We demonstrate that device models with 2 DOF can already exhibit symmetry-breaking bifurcations in the curve of static states and can have multiple disjoint solution paths. These features are also found in a finite-element method (FEM) model for a flexible beam suspended by a torsion spring. We have observed multiple hysteresis loops in measurements of a capacitive RF-MEMS device and have captured the qualitative features of these measurements in a model with 5 DOF. Numerical procedures for determining stability of solutions and finding bifurcation points are provided. Numerical path following is shown to be an efficient technique to find the curve of static states both in low-dimensional models and in FEM models.[2008-0138]

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Fluid-electrostatic-mechanical modeling of the dynamic response of RF-MEMS capacitive switches

Bielen¹,

Stulemeijer²,

Ganjoo

et al. 2008

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Efficient electrostatic-mechanical modeling of C-V curves of RF-MEMS switches

Bielen

Stulemeijer

2007

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InP-based spotsize converter for integration with switching devices

Stulemeijer

Bakker

Moerman

et al. 1999

IEEE Photon. Technol. Lett.

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Abstract-We have designed and fabricated an InGaAsP-InP based spotsize converter (SSC), which is compatible with the waveguide structure used in monolithic integrated ADM's and OXC's. In a first experiement, a total coupling loss to a cleaved fiber of 4.2 dB for TE and 3.9 dB for TM was realized with a 1.5-mm-long SSC. The 1-dB alignment tolerances improved from 0.75 m to 2.4 and 2.2 m for the horizontal and vertical direction, respectively.

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J. Stulemeijer

Compact photonic integrated phase and amplitude controller for phased-array antennas

Numerical Path Following as an Analysis Method for Electrostatic MEMS

Fluid-electrostatic-mechanical modeling of the dynamic response of RF-MEMS capacitive switches

Efficient electrostatic-mechanical modeling of C-V curves of RF-MEMS switches

InP-based spotsize converter for integration with switching devices

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