191 research outputs found
Possible climates on terrestrial exoplanets
What kind of environment may exist on terrestrial planets around other stars?
In spite of the lack of direct observations, it may not be premature to
speculate on exoplanetary climates, for instance to optimize future telescopic
observations, or to assess the probability of habitable worlds. To first order,
climate primarily depends on 1) The atmospheric composition and the volatile
inventory; 2) The incident stellar flux; 3) The tidal evolution of the
planetary spin, which can notably lock a planet with a permanent night side.
The atmospheric composition and mass depends on complex processes which are
difficult to model: origins of volatile, atmospheric escape, geochemistry,
photochemistry. We discuss physical constraints which can help us to speculate
on the possible type of atmosphere, depending on the planet size, its final
distance for its star and the star type. Assuming that the atmosphere is known,
the possible climates can be explored using Global Climate Models analogous to
the ones developed to simulate the Earth as well as the other telluric
atmospheres in the solar system. Our experience with Mars, Titan and Venus
suggests that realistic climate simulators can be developed by combining
components like a "dynamical core", a radiative transfer solver, a
parametrisation of subgrid-scale turbulence and convection, a thermal ground
model, and a volatile phase change code. On this basis, we can aspire to build
reliable climate predictors for exoplanets. However, whatever the accuracy of
the models, predicting the actual climate regime on a specific planet will
remain challenging because climate systems are affected by strong positive
destabilizing feedbacks (such as runaway glaciations and runaway greenhouse
effect). They can drive planets with very similar forcing and volatile
inventory to completely different states.Comment: In press, Proceedings of the Royal Society A 31 pages, 6 figure
La sensibilité sociale : une recension critique
International audienceSocial sensitivity is defined by the adjustment of an organism to the contingencies of social reinforcement (Forget & Rivard, 2010) and relies on the generalized matching law (Baum, 1974) and the operant function of social attention (Sajwaj & Dillon, 1977) such as verbal and non-verbal approvals, staring, proximity (Forget & Otis, 1984). The current article assesses the actual state of knowledge on social sensitivity that has been carried over the last 30 years of research. Studies were identified through a search in PsycInfo regardless of the year of publication. The keywords were matching law, social sensitivity, social attention. The reference section of each article was further examined to identify additional studies on social sensitivity. Inclusion criteria were the use of single-subject designs with social reinforcers and single-subject statistical analyses relying on the generalized matching law. Other studies were rejected because of statistical issues arising from between-subject analyses (Caron, 2013). The current review identified 15 published articles and 4 theses. Results reveal that social sensitivity has been mostly studied on children with Autism Spectrum Disorder and within classroom. Most studies showed that the generalized matching law describes well participants' response allocation according to social reinforcers. Among the 83 identified participants, 57 % conformed to matching law predictions. Results suggest a continuum of social sensitivity. For instance, typical participants' response allocations were generally closer to matching law predictions whereas participants with Asperger syndrome appeared to be insensitive to social reinforcers. Response allocations of the latter population showed low explained variances and a single participant showed a high sensitivity parameter. Participants with Austism Spectrum Disorders ranged between these two groups and showed higher bias value. This result agrees with the idea that this population presents and prefers stereotypic behavior. However, the review shows that 78 % of the identified studies did not use experimental designs. Most studies relied on descriptive observations, that is unconstrained reinforcers ratios, that may lead to relevant issues (St. Peter al., 2005), incorrect outcomes (Thompson & Iwata, 2007) and does not allow definitive conclusions (Bijou, Peterson & Ault, 1968). Considering only experimental designs, a single study showed results in favor of the generalized matching law, another one shows mixed results and the last two cast doubt on the capacity of the generalized matching law to describe social interaction. These ambiguous conclusions clearly point out that more experimental studies are needed. Despite that the flight from natural fields to the laboratory may represent a challenge, it is the next necessary step forward a robust and relevant theory of social sensitivity.La sensibilité sociale se définit comme l'ajustement d'un organisme aux contingences de renforcement social de son environnement (Forget et Rivard, 2010). Ce concept repose sur la loi généralisée de l'appariement (Baum. 1974) et sur l'hypothèse selon laquelle l'attention sociale présente généralement une fonction de renforcement (Sajwaj & Dillon, 1977). La présente recension des écrits empiriques expose les résultats des trente dernières années de recherche sur cette notion de sensibilité. Parmi 83 sujets provenant de 19 études, la fréquence relative des comportements étudiés correspond majoritairement bien aux prédictions de la loi généralisée de l'appariement. Les résultats suggèrent un continuum de sensibilité d'une personne à l'autre, ou d'un type de personnes à l'autre. Ainsi, le comportement des populations tout-venant correspond davantage aux prédictions du modèle tandis que les personnes ayant un syndrome d'Asperger sembleraient insensibles aux renforçateurs sociaux. Par ailleurs, la sensibilité sociale des personnes ayant un trouble du spectre de l'autisme présente une plus grande variabilité, à mi-chemin entre ces deux premiers groupes. Toutefois, 78 % des études n'impliquent aucun contrôle expérimental du taux de renforcement prodigué par l'adulte. Si la loi généralisée de l'appariement semble avoir une valeur heuristique pour déterminer le degré de sensibilité d'une personne à son environnement social, l'établissement de la validité empirique et expérimentale du concept reste à démontrer
Mars Pathfinder meteorological observations on the basis of results of an atmospheric global circulation model
The Mars Pathfinder Meteorological Package (ASI/MET) will measure the local pressure, temperature, and winds at its future landing site, somewhere between the latitudes 0 deg N and 30 deg N. Comparable measurements have already been obtained at the surface of Mars by the Viking Landers at 22 deg N (VL1) and 48 deg N (VL2), providing much useful information on the martian atmosphere. In particular the pressure measurements contain very instructive information on the global atmospheric circulation. At the Laboratoire de Meteorologie Dynamique (LMD), we have analyzed and simulated these measurements with a martian atmospheric global circulation model (GCM), which was the first to simulate the martian atmospheric circulation over more than 1 year. The model is able to reproduce rather accurately many observed features of the martian atmosphere, including the long- and short-period oscillations of the surface pressure observed by the Viking landers. From a meteorological point of view, we think that a landing site located near or at the equator would be an interesting choice
ESA's Mars Program: European Plans for Mars Exploration
A viewgraph presentation on the European Space Agency Mars Exploration Program is shown. The topics include: 1) History:Mars Exploration in Europe; 2) A few preliminary results from Mars Express; 3) A new instrument:Radar MARSIS; and 4) European Mars Exploration in the future
On thermal effects in solid state lasers: the case of ytterbium-doped materials
A review of theoretical and experimental studies of thermal effects in
solid-state lasers is presented, with a special focus on diode-pumped
ytterbium-doped materials. A large part of this review provides however general
information applicable to any kind of solid-state laser. Our aim here is not to
make a list of the techniques that have been used to minimize thermal effects,
but instead to give an overview of the theoretical aspects underneath, and give
a state-of-the-art of the tools at the disposal of the laser scientist to
measure thermal effects. After a presentation of some general properties of
Yb-doped materials, we address the issue of evaluating the temperature map in
Yb-doped laser crystals, both theoretically and experimentally. This is the
first step before studying the complex problem of thermal lensing (part III).
We will focus on some newly discussed aspects, like the definition of the
thermo-optic coefficient: we will highlight some misleading interpretations of
thermal lensing experiments due to the use of the dn/dT parameter in a context
where it is not relevant. Part IV will be devoted to a state-of-the-art of
experimental techniques used to measure thermal lensing. Eventually, in part V,
we will give some concrete examples in Yb-doped materials, where their
peculiarities will be pointed out
ARPES view of orbitally resolved quasiparticle lifetimes in iron pnictides
We study with ARPES the renormalization and quasiparticle lifetimes of the
and / orbitals in two iron pnictides, LiFeAs and
Ba(FeCo)As (Co8). We find that both quantities depend
on orbital character rather than on the position on the Fermi Surface (for
example hole or electron pocket). In LiFeAs, the renormalizations are larger
for , while they are similar on both types of orbitals in Co8. The most
salient feature, which proved robust against all the ARPES caveats we could
think of, is that the lifetimes for exhibit a markedly different
behavior than those for /. They have smaller values near
and exhibit larger and temperature dependences. While the behavior of
is compatible with a Fermi liquid description, it is not the case for
/. This situation should have important consequences for the
physics of iron pnictides, which have not been considered up to now. More
generally, it raises interesting questions on how a Fermi liquid regime can be
established in a multiband system with small effective bandwidths
3D modelling of the climatic impact of outflow channel formation events on early Mars
Mars was characterized by cataclysmic groundwater-sourced surface flooding that formed large outflow channels and that may have altered the climate for extensive periods during the Hesperian era. In particular, it has been speculated that such events could have induced significant rainfall and caused the formation of late-stage valley networks.
We present the results of 3-D Global Climate Model simulations reproducing the short and long term climatic impact of a wide range of outflow channel formation events under cold ancient Mars conditions. We find that the most intense of these events (volumes of water up to 107km3 and released at temperatures up to 320 Kelvins) cannot trigger long-term greenhouse global warming, regardless of how favorable are the external conditions (e.g. obliquity and seasons). In any case, outflow channel formation events at any atmospheric pressure are unable to produce rainfall or significant snowmelt at latitudes below 40∘N.
On the long term, for an obliquity of ∼45∘ and atmospheric pressures > 80 mbar, we find that the lake ice (formed quickly after the outflow event) is transported progressively southward through the mechanisms of sublimation and adiabatic cooling. At the same time, and as long as the initial water reservoir is not entirely sublimated, ice deposits remain in the West Echus Chasma Plateau region where hints of hydrological activity contemporaneous with outflow channel formation events have been observed. However, because the high albedo of ice drives Mars to even colder temperatures, snowmelt produced by seasonal solar forcing is difficult to attain.Earth and Planetary Science
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