385 research outputs found
Le bibliothécaire mis à nu ?
La page est tournée depuis longtemps du bibliothécaire à l’ancienne retranché dans son bureau. Au point que, de « transparence » en « proximité » et en « polyvalence », la surexposition au collectif guette des professionnels dont l’intimité même est désormais évaluable. De l’ouverture au contrôle généralisé, il n’y a qu’un pas : le pas de trop
The interplay between a galactic bar and a supermassive black hole: nuclear fueling in a sub-parsec resolution galaxy simulation
We study the connection between the large-scale dynamics and the gas fueling
toward a central black hole via the analysis of a Milky Way-like simulation at
sub-parsec resolution. This allows us to follow a set of processes at various
scales (e.g., the triggering of inward gas motion towards inner resonances via
the large-scale bar, the connection to the central black hole via mini spirals)
in a self-consistent manner. This simulation provides further insights on the
role of shear for the inhibition of star formation within the bar in regions
with significant amount of gas. We also witness the decoupling of the central
gas and nuclear cluster from the large-scale disc, via interactions with the
black hole. This break of symmetry in the mass distribution triggers the
formation of gas clumps organised in a time-varying 250 pc ring-like structure,
the black hole being offset by about 70 pc from its centre. Some clumps form
stars, while most get disrupted or merge. Supernovae feedback further creates
bubbles and filaments, some of the gas being expelled to 100 pc or higher above
the galaxy plane. This helps remove angular momentum from the gas, which gets
closer to the central dark mass. Part of the gas raining down is being
accreted, forming a 10~pc polar disc-like structure around the black hole,
leading to an episode of star formation. This gives rise to multiple stellar
populations with significantly different angular momentum vectors, and may lead
to a natural intermittence in the fueling of the black hole.Comment: Accepted for publication in MNRAS, 15 pages, 13 figure
Aerosol deposition and origin in French mountains estimated with soil inventories of 210Pb and artificial radionuclides
Radionuclide inventories were measured in soils from different French mountainous areas: Chaîne des Puys (Massif Central), Eastern Corsica, Jura, Montagne Noire, Savoie, Vosges and Rhine Valley. 210Pb soil inventories were used to estimate long-term (>75 yr) deposition of submicron aerosols. Whereas 210Pb total deposition is explained partly by wet deposition, as demonstrated by increase of 210Pb inventory with annual rainfall; a part of 210Pb in the soils of higher altitude is caused by orographic depositions. Using measurements of radionuclides coming from nuclear aerial weapon tests (137Cs and Pu isotopes), we were able to estimate the origin of aerosols deposited in high-altitude sites and to confirm the importance of occult deposition and feeder–seeder mechanism. Using a simple mass balance model, we estimate that occult deposition and feeder–seeder mechanisms account to more than 50% of total deposition of 210Pb and associated submicron aerosols in French altitude sites
Deposition of artificial radionuclides from atmospheric Nuclear Weapon Tests estimated by soil inventories in French areas low-impacted by Chernobyl
Soil inventories of anthropogenic radionuclides were investigated in altitudinal transects in 2 French regions, Savoie and Montagne Noire. Rain was negligible in these 2 areas the days after the Chernobyl accident. Thus anthropogenic radionuclides are coming hypothetically only from Global Fallout following Atmospheric Nuclear Weapon Tests. This is confirmed by the isotopic signatures (238Pu/239þ240Pu; 137Cs/239þ240Pu; and 241Am/239þ240Pu) close to Global Fallout value. In Savoie, a peat core age-dated by 210Pbex confirmed that the main part of deposition of anthropogenic radionuclides occurred during the late sixties and the early seventies. In agreement with previous studies, the anthropogenic radionuclide inventories are well correlated with the annual precipitations. However, this is the first time that a study investigates such a large panel of annual precipitation and therefore of anthropogenic radionuclide deposition. It seems that at high-altitude sites, deposition of artificial radionuclides was higher possibly due to orographic precipitations
Mapping adolescent health and lifestyles in a multi-state country: methodological aspects and first results
Summary: Objectives: To explore the feasibility of a geographical analysis (mapping) of data from a national adolescent survey. Methods: Teenagers 15 to 19 years in high school or apprenticeship (N=5275 boys and 3993 girls) answered a self-administered anonymous questionnaire targeting health and lifestyles. Switzerland was divided in 14 subunits, each one including at least 400 subjects: large cantons were isolated by themselves whereas smaller ones were aggregated taking into account common cultural, geographical and health characteristics. To minimise the impact of sample differences across the cantons, subsamples were weighted according to age, sex, and professional background. For each variable, the discretisation of the values in five classes was performed using the threshold approach which maximises intergroup differences and minimises the intragroup differences. Results: The analysis suggests different patterns of distribution depending on the type of variable studied: substance use differs mostly between urban and rural cantons, while mental health differs between French and German-speaking cantons. Conclusions: Whereas most available atlases are derived from population-based data (i.e., mortality rates), this research demonstrates the feasibility of using self-reported data from school-based survey samples. The presentation of data on attractive maps provides a unique opportunity for generating hypotheses as to the causes of differences across cantons in a multi-ethnic, multicultural countr
The distribution of globular clusters in kinematic spaces does not trace the accretion history of the host galaxy
Reconstructing how all the stellar components of the Galaxy formed and
assembled over time, by studying the properties of the stars which make it, is
the aim of Galactic archeology. In these last years, thanks to the launch of
the ESA Gaia astrometric mission, and the development of many spectroscopic
surveys, we are for the first time in the position to delve into the layers of
the past of our galaxy. Globular clusters (GCs) play a fundamental role in this
research field since they are among the oldest stellar systems in the Milky Way
(MW) and so bear witness of its entire past. In the recent years, there have
been several attempts to constrain the nature of clusters (accreted or formed
in the MW itself) through the analysis of kinematic spaces and to reconstruct
from this the properties of the accretions events experienced by the MW through
time. This work aims to test a widely-used assumption about the clustering of
the accreted populations of GCs in the integrals of motions space. We analyze a
set of dissipation-less N-body simulations that reproduce the accretion of one
or two satellites with their GC population on a MW-type galaxy. Our results
demonstrate that a significant overlap between accreted and
"kinematically-heated" in-situ GCs is expected in kinematic spaces, for mergers
with mass ratios of 1:10. In contrast with standard assumptions made in the
literature so far, we find that accreted GCs do not show dynamical coherence,
that is they do not cluster in kinematic spaces. In addition, GCs can also be
found in regions dominated by stars which have a different origin (i.e.
different progenitor). This casts doubt on the association between GCs and
field stars that is generally made in the literature to assign them to a common
origin. Our findings severely question the recovered accretion history of the
MW based on the phase-space clustering of the GC population.Comment: Submitted to A&A, 23 pages, 13 figure
Utilization Patterns and Projected Demand of Antiretroviral Drugs in Low- and Middle-Income Countries
Background. The rapid scale-up of antiretroviral therapy in resource-limited settings has greatly increased demand for antiretroviral medicines and raised the importance of good forward planning, especially in the context of the new 2010 WHO treatment guidelines. Methods. Forecasting of the number of people receiving antiretroviral therapy from 2010 to 2012 was produced using three approaches: linear projection, country-set targets, and a restricted scenario. Two additional scenarios were then used to project the demand for various antiretroviral medicines under a fast and slower phase-out of stavudine. Results. We projected that between 7.1 million and 8.4 million people would be receiving ART by the end of 2012. Of these, 6.6% will be on second-line therapy. High variation in forecast includes reductions in the demand for d4T and d4T increases in the demand for tenofovir, emtricitabine followed by efavirenz, ritonavir, zidovudine and lopinavir; lamivudine, atazanavir, and nevirapine. Conclusion. Despite the global economic crisis and in response to the revised treatment guidelines, our model forecasts an increasing and shifting demand for antiretrovirals in resource-limited settings not only to provide treatment to new patients, but also to those switching to less toxic regimens
Comprehensive Cluster Analysis for COPD Including Systemic and Airway Inflammatory Markers
Chronic obstructive pulmonary disease (COPD) is a complex, multidimensional and heterogeneous disease. The main purpose of the present study was to identify clinical phenotypes through cluster nalysis in adults suffering from COPD. A retrospective study was conducted on 178 COPD
patients in stable state recruited from ambulatory care at University hospital of Liege. All patients
were above 40 years, had a smoking history of more than 20 pack years, post bronchodilator FEV1/FVC <70% and denied any history of asthma before 40 years. In this study, the patients were
described by a total of 84 mixed sets of variables with some missing values. Hierarchical clustering
on principal components (HCPC) was applied on multiple imputation. In the final step, patients
were classified into homogeneous distinct groups by consensus clustering. Three different clusters,
which shared similar smoking history were found. Cluster 1 included men with moderate airway
obstruction (n¼67) while cluster 2 comprised men who were exacerbation-prone, with severe airflow
limitation and intense granulocytic airway and neutrophilic systemic inflammation (n¼56).
Cluster 3 essentially included women with moderate airway obstruction (n¼55). All clusters had a
low rate of bacterial colonization (5%), a low median FeNO value (<20 ppb) and a very low sensitization rate toward common aeroallergens (0-5%). CAT score did not differ between clusters. Including markers of systemic airway inflammation and atopy and applying a comprehensive cluster analysis we provide here evidence for 3 clusters markedly shaped by sex, airway obstruction and neutrophilic inflammation but not by symptoms and T2 biomarkers
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