Renaud Motte scite author profile

Renaud Motte

3Publications

75Citation Statements Received

24Citation Statements Given

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Affiliations

CEA DAM Île-de-France, École Normale Supérieure Paris-Saclay, Joseph Fourier University

Publications

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A Modeling of Compressible Droplets in a Fluid

Boudin¹,

Desvilletter²,

Motte³

2003

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In this work, we are interested in a complex fluid-kinetic model that aims to take into account the compressibility of the droplets of the spray. The ambient fluid is described by Euler-like equations, in which the transfer of momentum and energy from the droplets is taken into account, while the spray is represented by a probability density function satisfying a Vlasov-like equation. Implicit terms crop up because of the compressibility of the droplets. After having derived the model, we prove that global conservations are satisfied. Then we present two numerical tests. The first one enables us to validate the numerical code, while the second one is performed in a physically realistic situation.

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Metal oxide semiconductor structure using oxygen-terminated diamond

Chicot

Maréchal

Motte

et al. 2013

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International audienceMetal-oxide-semiconductor structures with aluminum oxide as insulator and p-type (100) mono-crystalline diamond as semiconductor have been fabricated and investigated by capacitance versus voltage and current versus voltage measurements. The aluminum oxide dielectric was deposited using low temperature atomic layer deposition on an oxygenated diamond surface. The capacitance voltage measurements demonstrate that accumulation, depletion, and deep depletion regimes can be controlled by the bias voltage, opening the route for diamond metal-oxide-semiconductor field effect transistor. A band diagram is proposed and discussed

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A geometrically accurate low-diffusive conservative interface capturing method suitable for multimaterial flows

et al. 2021

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Renaud Motte

A Modeling of Compressible Droplets in a Fluid

Metal oxide semiconductor structure using oxygen-terminated diamond

A geometrically accurate low-diffusive conservative interface capturing method suitable for multimaterial flows

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