10 um wavefront spatial filtering: first results with chalcogenide fibers

Wavefront cleaning by single-mode fibers has proved to be efficient in optical-infrared interferometry to improve calibration quality. For instance, the FLUOR instrument has demonstrated the capability of fluoride glass single-mode fibers in this respect in the K and L bands. New interferometric instruments developped for the mid-infrared require the same capability for the 8-12 um range. We have initiated a program to develop single-mode fibers in the prospect of the VLTI mid-infrared instrument MIDI and of the ESA/DARWIN and NASA/TPF missions that require excellent wavefront quality. In order to characterize the performances of chalcogenide fibers we are developping, we have set up an experiment to measure the far-field pattern radiated at 10 um. In this paper, we report the first and promising results obtained with this new component.Comment: Conference "Interferometry for Optical Astronomy II", SPIE 200

Voltage-gated sodium channels potentiate the invasive capacities of human non-small-cell lung cancer cell lines.

Ionic channel activity is involved in fundamental cellular behaviour and participates in cancerous features such as proliferation, migration and invasion which in turn contribute to the metastatic process. In this study, we investigated the expression and role of voltage-gated sodium channels in non-small-cell lung cancer cell lines. Functional voltage-gated sodium channels expression was investigated in normal and non-small-cell lung cancer cell lines. The measurement, in patch-clamp conditions, of tetrodotoxin-inhibitable sodium currents indicated that the strongly metastatic cancerous cell lines H23, H460 and Calu-1 possess functional sodium channels while normal and weakly metastatic cell lines do not. While all the cell lines expressed mRNA for numerous sodium channel isoforms, only H23, H460 and Calu-1 cells had a 250 kDa protein corresponding to the functional channel. The other cell lines also had another protein of 230 kDa which is not addressed to the membrane and might act as a dominant negative isoform to prevent channel activation. At the membrane potential of these cells, channels are partially open. This leads to a continuous entry of sodium, disrupting sodium homeostasis and down-stream signaling pathways. Inhibition of the channels by tetrodotoxin was responsible for a 40-50% reduction of in vitro invasion. These experiments suggest that the functional expression of voltage-gated sodium channels might be an integral component of the metastatic process in non-small-cell lung cancer cells probably through its involvement in the regulation of intracellular sodium homeostasis. These channels could serve both as novel markers of the metastatic phenotype and as potential new therapeutic targets

Electrical conductivity and Raman imaging of double wall carbon nanotubes in a polymer matrix

Raman spectroscopy is used to access the dispersion state of DWNTs in a PEEK polymer matrix. The interaction of the outer tube with the matrix can be determined from the line shape of the Raman G band. This allows us to distinguish regions where the nanotubes are well dispersed and regions where the nanotubes are agglomerated. The percolation threshold of the electrical conductivity of the double wall carbon nanotubes (DWNTs)/PEEK nanocomposites is found to be at 0.2–0.3 wt.%. We find a maximum electrical conductivity of 3 x 10-2 S/cm at 2 wt.% loading. We detect nanotube weight concentrations as low as 0.16 wt.% by Raman spectroscopy using a yellow excitation wavelength. We compare the Raman images with transmission electron microscopy images and electrical conductivity measurements. A statistical method is used to find a quantitative measure of the DWNTs dispersion in the polymer matrix from the Raman images

Etude en laboratoire de matière extraterrestre (implications pour la physico-chimie du Système Solaire primitif)

PARIS-BIUSJ-Thèses (751052125) / SudocPARIS-BIUSJ-Physique recherche (751052113) / SudocSudocFranceF

Dépôts conformes par voie liquide sur toplogie 3D

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Multi-scale quantitative analysis of carbon texture, nanotexture and structure: I. Electron diffraction-based anisotropy measurements

cited By 1International audienceTransmission electron microscopy is a technique of choice in the study of carbon materials, especially graphene-based carbon films, as it provides textural and structural information at a wide range of scales. The Selected Area (SA) diffraction mode yields valuable data regarding the textural arrangement of the graphene stacks. Specifically, the 002 arcs Opening Angle (OA) quantifies the degree of twist disorientation of the layers, and thus the material anisotropy. Depending on the SA aperture size, regions of interest from typically 0.01 to 10 μm2 can be probed. This work aims to improve on existing methodologies and develop image analysis software tools designed for digital imaging. For easier use, maintenance and portability, these tools are based on the Python programming language. Briefly, the azimuthal intensity profile of the 002 diffraction ring is extracted and fitted by a model based on Gaussian functions, while a fit of the average radial profile provides the offset constant. We show that this single algorithm works for values of OA ranging from less than 25 up to ∼180. Our method was validated on various pyrolytic carbon samples, specifically the dense, spherulitic deposits in TRISO nuclear fuel particles for 4th generation high temperature reactors

MULTI-SCALE QUANTITATIVE ANALYSIS OF CARBON STRUCTURE AND TEXTURE: III. LATTICE FRINGE IMAGING ANALYSIS

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Virus detection by transmission electron microscopy: Still useful for diagnosis and a plus for biosafety

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A micro-Raman survey of 10 IDPs and 6 carbonaceous chondrites

International audienceThis paper presents a micro-Raman survey of a set of 10 IDPs and 6 pristine carbonaceous chondrites. The higher sensitivity of the present micro-spectrometers allowed to record a dozen of spectra for each objects, whereas only one was available in previous studies. First, as in previous studies, the first-order carbon bands G and D were the only detected features, superimposed onto a fluorescence background of variable intensity, and the spectral characteristics of these bands point to a very disordered polyaromatic organic matter (OM). Nevertheless, these new data reveal that in IDPs, unlike chondrites, the presence of the Raman bands is not systematic, evidencing a much higher heterogeneity in the spatial distribution or the chemical composition of OM. Second, as a consequence, a single spectrum is not representative of a whole IDP, and the classification previously proposed by Wopenka [ 1988. Raman observations on individual interplanetary dust particules. Earth and Planet. Sci. Lett. 88, 221—231.] is no longer tenable. At last, this study shows that the fluorescence signal induced by the laser irradiation mostly originates from OM

Measuring domain sizes in graphene-based carbons

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