Luis Rández García scite author profile

Luis Rández García

3Publications

87Citation Statements Received

35Citation Statements Given

How they've been cited

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Affiliations

Laboratoire Interdisciplinaire de Physique, Grenoble Alpes University, Instituto de Investigaciones Eléctricas

Publications

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An optical readout system for the LISA gravitational reference sensors

Acernese

Calloni

Rosa

et al. 2004

Class. Quantum Grav.

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We present an optical readout system for the LISA gravitational reference sensor. Some estimations of the most relevant sources of noise are given showing that the required sensitivity can be reached with such a type of detector. Preliminary results with a bench-top experiment are also reported; a sensitivity of 10−8 m Hz−1/2 at 1 mHz and better than the specification of 10−9 m Hz−1/2 above 10 mHz has been measured. The sensitivity is probably limited, at low frequency, by drifts in the experimental set-up. A more compact and stable set-up is presently under design that should allow the demonstration of the required sensitivity down to 1 mHz.

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Nano-mechanics of ionic liquids at dielectric and metallic interfaces

et al. 2018

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Using a dynamic surface force apparatus, we investigate the nano-mechanics and the nano-rheology of an ionic liquid at dielectric and metallic solid surfaces. On smooth dielectric Pyrex surfaces, we find an ordered interfacial phase extending over less than 3 nm away from the top of the layer, with a compression modulus of 15 MPa extracted from the profile of the oscillatory forces. We discuss the boundary flow of the Newtonian bulk phase on this ordered interfacial layer. On metallic platinum surfaces, our hydrodynamic measurements evidence an interfacial soft solid layer extending up to 20 nm away from the top of the layer. The elastic modulus of this interfacial layer, derived from elasto-hydrodynamic measurements, is similar to the one found on Pyrex surfaces. Both on the dielectric and on the metal surfaces, the thickness of the interfacial phases is not found to change upon approach of the opposite surface, and does not exhibit a capillary-freezing transition.

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A micro-nano-rheometer for the mechanics of soft matter at interfaces

García

Barraud

Picard

et al. 2016

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We present a nano-rheometer based on the dynamic drainage flow between a sphere and a plane from bulk regime to highly confined regime. The instrument gives absolute measurements of the viscosity of simple liquids in both regimes. For complex fluids, the measurements involve the viscosity and the elastic modulus. The device operates on distances ranging over four orders of magnitude from 1 nm to 10 μm, bridging rheological properties from the macroscopic to the molecular scale. This allows to measure an hydrodynamic or visco-elastic boundary condition and to explore the causes of the boundary condition at the microscopic level.

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