P. Bigotte scite author profile

P. Bigotte

4Publications

36Citation Statements Received

46Citation Statements Given

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Affiliations

Institute of Electronics, Microelectronics and Nanotechnology, Institut Supérieur de l'Électronique et du Numérique, French National Centre for Scientific Research

Publications

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Modeling and Experimental Validation of Sharpening Mechanism Based on Thermal Oxidation for Fabrication of Ultra-Sharp Silicon Nanotips

Agache¹,

Ringot²,

Bigotte³

et al. 2005

IEEE Trans. Nanotechnology

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This paper aims at modeling the thermal oxidation of silicon pillars leading to the formation of very sharp silicon tips. The model is used to determine optimum process parameters with respect to the initial shape of the silicon pillars and the geometry of the desired tip. The modeling concept is to extend a previous approach, which predicts the oxidation mechanism of silicon cylinders versus their initial radius. The silicon pillar geometry is approximated by a superposition of silicon cylindrical structures featuring a local curvature radius. Experimental validation has been performed for several initial silicon pillar shapes, at 1000 C and 1100 C under dry oxidation conditions, leading to formation of very sharp silicon tips. The numerical predictions are shown to agree well with these experimental data. The motivation of this study aims at designing and fabricating a nanoelectromechanical filter device. Its vibrating part consists of a silicon nanotip, covered with a thin gold layer, the geometrical features of which affect the center frequency of the nanofilter device.

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A large stepwise motion electrostatic actuator for a wireless microrobot

Basset

Kaiser²,

Bigotte³

et al.

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Large stroke actuation of continuous membrane for adaptive optics by 3D self-assembled microplates

Quévy

Bigotte

Collard

et al. 2002

Sensors and Actuators A: Physical

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3D self-assembling and actuation of electrostatic micro-mirrors

Quévy

Buchaillot²,

Bigotte³

et al. 2000

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3D Polysilicon micro-parts are self-assembled by beam buckling induced by integrated Scratch Drive Actuator (SDA). With this technique, 380*250 µm 2 micro-mirror were lifted 90 µm above the substrate plane. The 3D shapes were permanently kept by 2 different ways: i) mechanical locking produced by integrated clips and ii) electric field induced stiction. Subsequent to the assembling, micro-mirrors are successfully actuated by biasing underneath buried electrodes. Controlled motion up to +/-15˚rotation was successfully obtained even for long term experiments. This paper reports for the first time on the actuation of permanent 3D self-assembled micro-mirror for beam steering application.

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P. Bigotte

Modeling and Experimental Validation of Sharpening Mechanism Based on Thermal Oxidation for Fabrication of Ultra-Sharp Silicon Nanotips

A large stepwise motion electrostatic actuator for a wireless microrobot

Large stroke actuation of continuous membrane for adaptive optics by 3D self-assembled microplates

3D self-assembling and actuation of electrostatic micro-mirrors

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