66 research outputs found
Experimental observation of strong light-matter coupling in ZnO microcavities: influence of large excitonic absorption
We present experimental observation of the strong light-matter coupling
regime in ZnO bulk microcavities grown on silicon. Angle resolved reflectivity
measurements, corroborated by transfer-matrix simulations, show that Rabi
splittings in the order of 70 meV are achieved even for low finesse cavities.
The impact of the large excitonic absorption, which enables a ZnO bulk-like
behavior to be observed even in the strong coupling regime, is illustrated both
experimentally and theoretically by considering cavities with increasing
thickness
Extreme ultraviolet detection using AlGaN-on-Si inverted Schottky photodiodes
We report on the fabrication of aluminum gallium nitride (AlGaN) Schottky diodes for extreme ultraviolet (EUV) detection. AlGaN layers were grown on silicon wafers by molecular beam epitaxy with the conventional and inverted Schottky structure, where the undoped, active layer was grown before or after the n-doped layer, respectively. Different current mechanisms were observed in the two structures. The inverted Schottky diode was designed for the optimized backside sensitivity in the hybrid imagers. A cut-off wavelength of 280 nm was observed with three orders of magnitude intrinsic rejection ratio of the visible radiation. Furthermore, the inverted structure was characterized using a EUV source based on helium discharge and an open electrode design was used to improve the sensitivity. The characteristic He I and He II emission lines were observed at the wavelengths of 58.4 nm and 30.4 nm, respectively, proving the feasibility of using the inverted layer stack for EUV detectio
Relaxation and emission of Bragg-mode and cavity-mode polaritons in a ZnO microcavity at room temperature
The strong coupling regime in a ZnO microcavity is investigated through room
temperature photoluminescence and reflectivity experiments. The simultaneous
strong coupling of excitons to the cavity mode and the first Bragg mode is
demonstrated at room temperature. The polariton relaxation is followed as a
function of the excitation density. A relaxation bottleneck is evidenced in the
Bragg-mode polariton branch. It is partly broken under strong excitation
density, so that the emission from this branch dominates the one from
cavity-mode polaritons
A predictive model relating daily fluctuations in summer temperatures and mortality rates
<p>Abstract</p> <p>Background</p> <p>In the context of climate change, an efficient alert system to prevent the risk associated with summer heat is necessary. The authors' objective was to describe the temperature-mortality relationship in France over a 29-year period and to define and validate a combination of temperature factors enabling optimum prediction of the daily fluctuations in summer mortality.</p> <p>Methods</p> <p>The study addressed the daily mortality rates of subjects aged over 55 years, in France as a whole, from 1975 to 2003. The daily minimum and maximum temperatures consisted in the average values recorded by 97 meteorological stations. For each day, a cumulative variable for the maximum temperature over the preceding 10 days was defined.</p> <p>The mortality rate was modelled using a Poisson regression with over-dispersion and a first-order autoregressive structure and with control for long-term and within-summer seasonal trends. The lag effects of temperature were accounted for by including the preceding 5 days. A "backward" method was used to select the most significant climatic variables. The predictive performance of the model was assessed by comparing the observed and predicted daily mortality rates on a validation period (summer 2003), which was distinct from the calibration period (1975–2002) used to estimate the model.</p> <p>Results</p> <p>The temperature indicators explained 76% of the total over-dispersion. The greater part of the daily fluctuations in mortality was explained by the interaction between minimum and maximum temperatures, for a day <it>t </it>and the day preceding it. The prediction of mortality during extreme events was greatly improved by including the cumulative variables for maximum temperature, in interaction with the maximum temperatures. The correlation between the observed and estimated mortality ratios was 0.88 in the final model.</p> <p>Conclusion</p> <p>Although France is a large country with geographic heterogeneity in both mortality and temperatures, a strong correlation between the daily fluctuations in mortality and the temperatures in summer on a national scale was observed. The model provided a satisfactory quantitative prediction of the daily mortality both for the days with usual temperatures and for the days during intense heat episodes. The results may contribute to enhancing the alert system for intense heat waves.</p
Elaboration et étude d'hétérojonctions GaN/AlGaN déposées sur GaN massif
MONTPELLIER-BU Sciences (341722106) / SudocSudocFranceF
Le bilan dans l'environnement : définir le juste équilibre en science et conscience
L'article étudie la méthodologie relative à l'application du bilan dans l'environnement, en montrant d'abord l'irrésistible quête de l'objectivité, appuyée sur les sciences, ensuite en en montrant les limites dues à la nécessaire acceptabilité dans la pesée des intérêts de l'utilité publique
Conditioner application improves bedding quality and bacterial composition with potential beneficial impacts for dairy cow’s health
ABSTRACTRecycled manure solids (RMS) is used as bedding material in cow housing but can be at risk for pathogens development. Cows spend several hours per day lying down, contributing to the transfer of potential mastitis pathogens from the bedding to the udder. The effect of a bacterial conditioner (Manure Pro, MP) application was studied on RMS-bedding and milk qualities and on animal health. MP product was applied on bedding once a week for 3 months. Bedding and teat skin samples were collected from Control and MP groups at D01, D51, and D90 and analyzed through 16S rRNA amplicon sequencing. MP application modified bacterial profiles and diversity. Control bedding was significantly associated with potential mastitis pathogens, while no taxa of potential health risk were significantly detected in MP beddings. Functional prediction identified enrichment of metabolic pathways of agronomic interest in MP beddings. Significant associations with potential mastitis pathogens were mainly observed in Control teat skin samples. Finally, significantly better hygiene and lower Somatic Cell Counts in milk were observed for cows from MP group, while no group impact was observed on milk quality and microbiota. No dissemination of MP strains was observed from bedding to teats or milk.IMPORTANCEThe use of Manure Pro (MP) conditioner improved recycled manure solids-bedding quality and this higher sanitary condition had further impacts on dairy cows' health with less potential mastitis pathogens significantly associated with bedding and teat skin samples of animals from MP group. The animals also presented an improved inflammation status, while milk quality was not modified. The use of MP conditioner on bedding may be of interest in controlling the risk of mastitis onset for dairy cows and further associated costs
Buried defects induced by plasma assisted molecular beam epitaxy of AlN and GaN on Silicon
International audienc
Heat exposure and socio-economic vulnerability as synergistic factors in heat-wave-related mortality
International audienceHeat waves may become a serious threat to the health and safety of people who currently live in temperate climates. It was therefore of interest to investigate whether more deprived populations are more vulnerable to heat waves. In order to address the question on a fine geographical scale, the spatial heterogeneity of the excess mortality in France associated with the European heat wave of August 2003 was analysed. A deprivation index and a heat exposure index were used jointly to describe the heterogeneity on the Canton scale (3,706 spatial units). During the heat wave period, the heat exposure index explained 68% of the extra-Poisson spatial variability of the heat wave mortality ratios. The heat exposure index was greater in the most urbanized areas. For the three upper quintiles of heat exposure in the densely populated Paris area, excess mortality rates were twofold higher in the most deprived Cantons (about 20 excess deaths/100,000 people/day) than in the least deprived Cantons (about 10 excess deaths/100,000 people/day). No such interaction was observed for the rest of France, which was less exposed to heat and less heterogeneous in terms of deprivation. Although a marked increase in mortality was associated with heat wave exposure for all degrees of deprivation, deprivation appears to be a vulnerability factor with respect to heat-wave-associated mortality
A detailed study of AlN and GaN grown on silicon-on-porous silicon substrate
International audienc
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