Mickaël Geitner scite author profile

Mickaël Geitner

2Publications

64Citation Statements Received

75Citation Statements Given

How they've been cited

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Affiliations

École Normale Supérieure de Lyon, Claude Bernard University Lyon 1, Laboratoire de Physique de l'ENS de Lyon

Publications

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Low thermal fluctuations in a system heated out of equilibrium

et al. 2017

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We study the mechanical fluctuations of a micrometer sized silicon cantilever subjected to a strong heat flow, thus having a highly nonuniform local temperature. In this nonequilibrium steady state, we show that fluctuations are equivalent to the thermal noise of a cantilever at equilibrium around room temperature, while its mean local temperature is several hundred degrees higher. Changing the mechanical dissipation by adding a coating to the cantilever, we recover the expected rise of fluctuations with the mean temperature. Our work demonstrates that inhomogeneous dissipation mechanisms can decouple the amplitude of thermal fluctuations from the average temperature. This property could be useful to understand out-of-equilibrium fluctuating systems, or to engineer low noise instruments.

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Measurements of mechanical thermal noise and energy dissipation in optical dielectric coatings

Sandoval

Geitner

et al. 2014

Phys. Rev. D

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In recent years an increasing number of devices and experiments are shown to be limited by mechanical thermal noise. In particular sub-Hertz laser frequency stabilization and gravitational wave detectors, that are able to measure fluctuations of 10−18 m/ √ Hz or less, are being limited by thermal noise in the dielectric coatings deposited on mirrors. In this paper we present a new measurement of thermal noise in low absorption dielectric coatings deposited on micro-cantilevers and we compare it with the results obtained from the mechanical loss measurements. The coating thermal noise is measured on the widest range of frequencies with the highest signal to noise ratio ever achieved. In addition we present a novel technique to deduce the coating mechanical losses from the measurement of the mechanical quality factor which does not rely on the knowledge of the coating and substrate Young moduli.The dielectric coatings are deposited by ion beam sputtering. The results presented here give a frequency independent loss angle of (4.7 ± 0.2) × 10 −4 with a Young's modulus of 118 GPa for annealed tantala from 10 Hz to 20 kHz. For as-deposited silica, a weak frequency dependence (∝ f −0.025 ) is observed in this frequency range, with a Young's modulus of 70 GPa and an internal damping of (6.0 ± 0.3) × 10 −4 at 16 kHz, but this value decreases by one order of magnitude after annealing and the frequency dependence disappears.

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