Your search keyword '"Mosset, Alexis"' showing total 14 results

1. Estimation of the elastic and piezoelectric tensors of sapphire and lithium niobate from Brillouin light backscattering measurements of a single crystal sample.

Author

Ugarak, Fehima, Iglesias Martínez, Julio A., Mosset, Alexis, and Laude, Vincent

Subjects

SINGLE crystals, REFRACTION (Optics), CRYSTALS, PHOTOMETRY, CRYSTAL symmetry, LITHIUM niobate

Abstract

Brillouin light scattering is a versatile measurement technique of the dispersion of bulk acoustic phonons in amorphous and crystalline solids. It allows contactless and non-destructive characterization of the relevant material tensors of optically transparent materials, provided that the optical refraction indices, and in addition the dielectric tensor for piezoelectric materials, are known beforehand. The complete estimation of the anisotropic material tensors is often performed using many different crystal orientations, and hence different samples of the same crystal. In this paper, we consider the problem of measuring those tensors using a single sample of an anisotropic single crystal with trigonal symmetry. A complete measurement requires sufficient experimental diversity in the phonon wavevectors when sampling the phonon velocity surfaces, hence the consideration of a large number of directions away from crystallographic axes. We estimate all six independent elastic constants of non-piezoelectric sapphire ( 3 ¯ m point group) with a single X-cut wafer and the six independent elastic constants together with the four independent piezoelectric constants of piezoelectric lithium niobate (3 m point group) with a single Y-cut wafer. The estimated tensors are in close agreement with those reported in the literature based on resonant ultrasonic techniques. [ABSTRACT FROM AUTHOR]

Published

2023

2. Velocity of subsonic and hypersonic surface acoustic waves on silicon with native oxide layer.

Author

Ugarak, Fehima, Mosset, Alexis, and Laude, Vincent

Subjects

*ACOUSTIC surface waves, *SPEED of sound, *BRILLOUIN scattering, *SILICON oxide, *SILICA

Abstract

The anisotropic dependence of the velocity of surface acoustic waves (SAW) on silicon is explored using surface Brillouin light scattering. Measurements of the SAW velocity are compared to a numerical model that takes into account the native thin amorphous oxide layer formed at the top surface of the silicon wafer. The model accounts for material loss and provides a relative estimate for the backscattered intensity resulting from the ripple effect. For the (100) sample considered, a thickness of 4 nm fits well with experimental data, considering material constants of amorphous silica for the oxide. A global phase velocity decrease of −11 m/s per nanometer of silica thickness is predicted for surface phonons at frequencies around 16 GHz. [ABSTRACT FROM AUTHOR]

Published

2024

3. 4D Thermomechanical metamaterials for soft microrobotics

Author

Ji, Qingxiang, Moughames, Johnny, Chen, Xueyan, Fang, Guodong, Huaroto, Juan J., Laude, Vincent, Martínez, Julio Andrés Iglesias, Ulliac, Gwenn, Clévy, Cédric, Lutz, Philippe, Rabenorosoa, Kanty, Guelpa, Valerian, Spangenberg, Arnaud, Liang, Jun, Mosset, Alexis, and Kadic, Muamer

Published

2021

4. Electrical resistivity and elastic wave propagation anisotropy in glancing angle deposited tungsten and gold thin films

Author

El Beainou, Raya, Chargui, Asma, Pedrosa, Paulo, Mosset, Alexis, Euphrasie, Sébastien, Vairac, Pascal, and Martin, Nicolas

Published

2019

5. Restoring and tailoring very high dimensional spatial entanglement of a biphoton state transmitted through a scattering medium.

Author

Devaux, Fabrice, Mosset, Alexis, Popoff, Sébastien M, and Lantz, Eric

Subjects

*PHOTON pairs, *PHASE-shifting interferometry, *SPATIAL light modulators, *WAVE functions, *COMPLEX matrices

Abstract

We report experimental results where a momentum entangled biphoton state with a Schmidt number of a few thousand is retrieved and manipulated when only one photon of the pair is transmitted through a thin scattering medium. For this purpose, the transmission matrix of the complex medium is first measured with a phase-shifting interferometry measurement method using a spatial light modulator (SLM) illuminated with a laser source. From this matrix, different phase masks are calculated and addressed on the SLM to spatially control the focusing of the laser through the complex medium. These same masks are used to manipulate the phase of the biphoton wave function transmitted by the thin diffuser in order to restore and control in the same way the momentum correlations between the far-field images of twin beams issued from strongly spatial-multi-mode spontaneous parametric down conversion. [ABSTRACT FROM AUTHOR]

Published

2023

6. Dispersion of surface elastic waves on Z-LiNbO3 films on Z-sapphire.

Author

La Spina, Léa, Micard, Quentin, Mosset, Alexis, Margueron, Samuel, Bartasyte, Ausrine, and Laude, Vincent

Subjects

ACOUSTIC surface waves, SURFACE waves (Seismic waves), SAPPHIRES, LONGITUDINAL waves, BRILLOUIN scattering, CHEMICAL vapor deposition, WAVE analysis, RAYLEIGH waves, ACOUSTIC wave propagation

Abstract

Epitaxial thin films of lithium niobate with a thickness of 160 nm, oriented along the crystallographic c axis, were grown by direct liquid injection chemical vapor deposition on c-sapphire substrates. Different families of very high-frequency surface acoustic waves with general polarization exist in such piezoelectric films on high-velocity substrates. Surface Brillouin light scattering measurements, complemented with fast finite element analysis of wave dispersion, demonstrate Rayleigh, leaky shear, and leaky longitudinal surface waves, excited at frequencies between 10 and 30 GHz. The Brillouin technique reveals dispersion and anisotropy of propagation without the implementation of high-frequency surface acoustic wave transducers. [ABSTRACT FROM AUTHOR]

Published

2023

7. Giant magnetoresistance in cluster-assembled nanostructures: on the influence of inter-particle interactions

Author

Oyarzún, Simón, Domingues Tavares de Sa, Artur, Tuaillon-Combes, Juliette, Tamion, Alexandre, Hillion, Arnaud, Boisron, Olivier, Mosset, Alexis, Pellarin, Michel, Dupuis, Véronique, and Hillenkamp, Matthias

Published

2013

8. Brillouin Light Scattering Characterisation of Gray Tone 3D Printed Isotropic Materials.

Author

Ugarak, Fehima, Ulliac, Gwenn, Iglesias Martínez, Julio Andrés, Moughames, Johnny, Laude, Vincent, Kadic, Muamer, and Mosset, Alexis

Subjects

BRILLOUIN scattering, LIGHT scattering, PRINT materials, ELASTICITY, ELASTIC scattering, ELASTIC constants

Abstract

Three-dimensional direct laser writing technology enables one to print polymer microstructures whose size varies from a few hundred nanometers to a few millimeters. It has been shown that, by tuning the laser power during writing, one can adjust continuously the optical and elastic properties with the same base material. This process is referred to as gray-tone lithography. In this paper, we characterize by Brillouin light scattering the complex elastic constant C 11 of different reticulated isotropic polymers, at longitudinal phonon frequencies of the order of 16 GHz. We estimate the real part of the C 11 constant to vary from 7 to 11 GPa as a function of laser power, whereas its imaginary part varies between 0.25 and 0.6 GPa. The linear elastic properties are further measured at a fixed laser power as a function of temperature, from 20 ∘ C to 80 ∘ C. Overall, we show that our 3D printed samples have a good elastic quality with high Q factors only ten times smaller than fused silica at hypersonic frequencies. [ABSTRACT FROM AUTHOR]

Published

2022

9. Quantum spatial correlations imaging through thick scattering media: experiments and comparison with simulations of the biphoton wave function.

Author

Soro, Gnatiessoro, Lantz, Eric, Mosset, Alexis, and Devaux, Fabrice

Subjects

WAVE functions, QUANTUM correlations, PHOTON scattering, COMPUTER simulation, PHOTONS, EXPERIMENTS, SPECKLE interference

Abstract

We first extend our recent experiments of spatial quantum correlations imaging through thin scattering media to the case where two phase scattering plates placed respectively in the image and the Fourier planes of the biphoton source, mimics a thick scattering medium. Spatial correlations between twin photons are still detected at the quantum level but no more in the form of two-photon speckle-like patterns. However, we show that spatial entanglement of very-high dimensionality can be retrieved through thick scattering media with moderate losses and without any fair sampling assumption in the space and time domains. Second, a numerical simulation of the biphoton wave function is developed and applied to our experimental situation, with a good agreement. [ABSTRACT FROM AUTHOR]

Published

2021

10. Image upconversion from the visible to the UV domain: application to dynamic UV microstereolithography

Author

Devaux, Fabrice, Mosset, Alexis, Lantz, Eric, Monneret, Serge, and Le Gall, Herve

Subjects

Optics -- Research, Optical data processing -- Research, Stereolithography -- Methods, Astronomy, Physics

Abstract

We present what to our knowledge is a new application of optical frequency upconversion of images in quadratic materials to dynamic UV microstereolithography. A 150 x 150 point visible image transmitted by a liquid-crystal display was upconverted in a lithium triborate crystal, and the UV image was successfully used to polymerize a commercial stereolithographic resin. OCIS codes: 190.7220, 220.4000, 350.5130.

Published

2001

11. Plasmonic coupling with most of the transition metals: a new family of broad band and near infrared nanoantennas.

Author

Manchon, Delphine, Lermé, Jean, Zhang, Taiping, Mosset, Alexis, Jamois, Cécile, Bonnet, Christophe, Rye, Jan-Michael, Belarouci, Ali, Broyer, Michel, Pellarin, Michel, and Cottancin, Emmanuel

Published

2015

12. Influence of Thickness and Sputtering Pressure on Electrical Resistivity and Elastic Wave Propagation in Oriented Columnar Tungsten Thin Films.

Author

Chargui, Asma, El Beainou, Raya, Mosset, Alexis, Euphrasie, Sébastien, Potin, Valérie, Vairac, Pascal, and Martin, Nicolas

Subjects

ELECTRICAL resistivity, THIN films, GLANCING angle deposition, ACOUSTIC surface waves, TUNGSTEN, PIEZOELECTRIC thin films, ELASTIC wave propagation

Abstract

Tungsten films were prepared by DC magnetron sputtering using glancing angle deposition with a constant deposition angle α = 80°. A first series of films was obtained at a constant pressure of 4.0 × 10−3 mbar with the films' thickness increasing from 50 to 1000 nm. A second series was produced with a constant thickness of 400 nm, whereas the pressure was gradually changed from 2.5 × 10−3 to 15 × 10−3 mbar. The A15 β phase exhibiting a poor crystallinity was favored at high pressure and for the thinner films, whereas the bcc α phase prevailed at low pressure and for the thicker ones. The tilt angle of the columnar microstructure and fanning of their cross-section were tuned as a function of the pressure and film thickness. Electrical resistivity and surface elastic wave velocity exhibited the highest anisotropic behaviors for the thickest films and the lowest pressure. These asymmetric electrical and elastic properties were directly connected to the anisotropic structural characteristics of tungsten films. They became particularly significant for thicknesses higher than 450 nm and when sputtered particles were mainly ballistic (low pressures). Electronic transport properties, as well as elastic wave propagation, are discussed considering the porous architecture changes vs. film thickness and pressure. [ABSTRACT FROM AUTHOR]

Published

2020

13. Synthesis of PEGylated gold nanostars and bipyramids for intracellular uptake.

Author

Navarro, Julien R. G., Manchon, Delphine, Lerouge, Frédéric, Blanchard, Nicholas P., Marotte, Sophie, Leverrier, Yann, Marvel, Jacqueline, Chaput, Frédéric, Micouin, Guillaume, Gabudean, Ana-Maria, Mosset, Alexis, Cottancin, Emmanuel, Baldeck, Patrice L., Kamada, Kenji, and Parola, Stephane

Subjects

GOLD nanoparticle synthesis, BIO-imaging sensors, SURFACE plasmons, NANOSTRUCTURES, POLYETHYLENE glycol, MELANOMA, CANCER cells

Abstract

A great number of works have focused their research on the synthesis, design and optical properties of gold nanoparticles for potential biological applications (bioimaging, biosensing). For this kind of application, sharp gold nanostructures appear to exhibit the more interesting features since their surface plasmon bands are very sensitive to the surrounding medium. In this paper, a complete study of PEGylated gold nanostars and PEGylated bipyramidal-like nanostructures is presented. The nanoparticles are prepared in high yield and their surfaces are covered with a biocompatible polymer. The photophysical properties of gold bipyramids and nanostars, in suspension, are correlated with the optical response of single and isolated objects. The resulting spectra of isolated gold nanoparticles are subsequently correlated to their geometrical structure by transmission electron microscopy. Finally, the PEGylated gold nanoparticles were incubated with melanoma B16-F10 cells. Dark-field microscopy showed that the biocompatible gold nanoparticles were easily internalized and most of them localized within the cells. [ABSTRACT FROM AUTHOR]

Published

2012

14. Anisotropic thermal conductivity of nanocolumnar W thin films.

Author

Chargui, Asma, El Beainou, Raya, Mosset, Alexis, Gavoille, Joseph, Vairac, Pascal, Euphrasie, Sébastien, and Martin, Nicolas

Subjects

*THERMAL conductivity, *GLANCING angle deposition, *NANOFLUIDS, *HEAT conduction, *ELECTRIC conductivity, *THIN films

Abstract

• Dense and tilted columnar W films were prepared by GLAD sputtering. • The 3 ω method was used to determine in-plane thermal conductivities. • Anisotropic thermal conductivity was produced for tilted columnar W films. • Deviation from the Wiedemann-Franz law was observed for W GLAD films. We report on thermal conductivity of W films 350 nm thick sputter-deposited by glancing angle deposition (GLAD). The 3 ω method is used to measure the in-plane thermal conductivity k x and k y for films deposited with a deposition angle α of 0° and 80°. For classical films (α = 0 °), the thermal conductivity is 71 W m−1 K−1, whereas for GLAD films (α = 80 °) the in-plane conduction drops to k x = 3.2 W m−1 K−1 and k y = 4.8 W m−1 K−1. The in-plane thermal conductivity anisotropy corresponds to a heat conduction favored in the direction perpendicular to the deposition axis, which is related to the anisotropic columnar microstructure. Electrical conductivity is also determined leading to a significant deviation from the Wiedemann-Franz law for the GLAD films. [ABSTRACT FROM AUTHOR]

Published

2022