956 resultados para émotions
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Background and Purpose: To quantify respiratory motion of the vocal cords during normal respiration using 4D-CT. The final goal is to develop a technique for single vocal cord irradiation (SVCI) in early glottic carcinoma. Sparing the non-involved cord and surrounding structures has the potential to preserve voice quality and allow re-irradiation of recurrent and second primary tumors. Material and methods: Four-dimensional CTs of 1 mm slice thickness from 10 early glottic carcinoma patients were acquired. The lateral dimensions of the air gap separating the vocal cords were measured anteriorly, at mid-level and posteriorly at each phase of the 4D-CTs. The corresponding anterior-posterior gaps were similarly measured. Cranio-caudal vocal cords movements during breathing were derived from the shifts of the arythenoids. Results: The population-averaged mean gap size ± the corresponding standard deviation due to breathing (SDB) for the lateral gaps was 5.8 ± 0.7 mm anteriorly, 8.7 ± 0.9 mm at mid-level, and 11.0 ± 1.3 mm posteriorly. Anterior-posterior gap values were 21.7 ± 0.7 mm, while cranio-caudal shift SDB was 0.8 mm. Conclusion: Vocal cords breathing motions were found to be small relative to their separation. Hence, breathing motion does not seem to be a limiting factor for SVCI. © 2008 Elsevier Ireland Ltd. All rights reserved.
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We analyze high temporal and spatial resolution time-series of spectralscans of the Hα line obtained with the CRisp Imaging SpectroPolarimeter instrument mounted on the Swedish Solar Telescope.The data reveal highly dynamic, dark, short-lived structures known asRapid Redshifted and Blueshifted Excursions (RREs, RBEs) that areon-disk absorption features observed in the red and blue wings ofspectral lines formed in the chromosphere. We study the dynamics of RREsand RBEs by tracking their evolution in space and time, measuring thespeed of the apparent motion, line of sight (LOS) Doppler velocity, andtransverse velocity of individual structures. A statistical study oftheir measured properties shows that RREs and RBEs have similaroccurrence rates, lifetimes, lengths, and widths. They also displaynon-periodic, nonlinear transverse motions perpendicular to their axesat speeds of 4-31 km s-1. Furthermore, both typesof structures either appear as high speed jets and blobs that aredirected outwardly from a magnetic bright point with speeds of50-150 km s-1, or emerge within a few seconds. Astudy of the different velocity components suggests that the transversemotions along the LOS of the chromospheric flux tubes are responsiblefor the formation and appearance of these redshifted/blueshiftedstructures. The short lifetime and fast disappearance of the RREs/RBEssuggests that, similar to type II spicules, they are rapidly heated totransition region or even coronal temperatures. We speculate that theKelvin-Helmholtz instability triggered by observed transversemotions of these structures may be a viable mechanism for their heating.
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Using the Rapid Oscillation in the Solar Atmosphere (ROSA) instrument at the Dunn Solar Telescope we have found that the spectra of fluctuations of the G-band (cadence 1.05 s) and Ca II K-line (cadence 4.2 s) intensities show correlated fluctuations above white noise out to frequencies beyond 300 mHz and up to 70 mHz, respectively. The noise-corrected G-band spectrum presents a scaling range (Ultra High Frequency “UHF”) for f = 25-100 mHz, with an exponent consistent with the presence of turbulent motions. The UHF power, is concentrated at the locations of magnetic bright points in the intergranular lanes, it is highly intermittent in time and characterized by a positive kurtosis κ. Combining values of G-band and K-line intensities, the UHF power, and κ, reveals two distinct “states” of the internetwork solar atmosphere. State 1, with κ ≍ 6, which includes almost all the data, is characterized by low intensities and low UHF power. State 2, with κ ≍ 3, including a very small fraction of the data, is characterized by high intensities and high UHF power. Superposed epoch analysis shows that for State 1, the K-line intensity presents 3.5 min chromospheric oscillations with maxima occurring 21 s after G-band intensity maxima implying a 150-210 km effective height difference. For State 2, the G-band and K-line intensity maxima are simultaneous, suggesting that in the highly magnetized environment sites of G-band and K-line emission may be spatially close together. Analysis of observations obtained with Hinode/SOT confirm a scaling range in the G-band spectrum up to 53 mHz also consistent with turbulent motions as well as the identification of two distinct states in terms of the H-line intensity and G-band power as functions of G-band intensity.
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X-ray and radio observations of the supernova remnant Cassiopeia A reveal the presence of magnetic fields about 100 times stronger than those in the surrounding interstellar medium. Field coincident with the outer shock probably arises through a nonlinear feedback process involving cosmic rays. The origin of the large magnetic field in the interior of the remnant is less clear but it is presumably stretched and amplified by turbulent motions. Turbulence may be generated by hydrodynamic instability at the contact discontinuity between the supernova ejecta and the circumstellar gas9. However, optical observations of Cassiopeia A indicate that the ejecta are interacting with a highly inhomogeneous, dense circumstellar cloud bank formed before the supernova explosion. Here we investigate the possibility that turbulent amplification is induced when the outer shock overtakes dense clumps in the ambient medium. We report laboratory experiments that indicate the magnetic field is amplified when the shock interacts with a plastic grid. We show that our experimental results can explain the observed synchrotron emission in the interior of the remnant. The experiment also provides a laboratory example of magnetic field amplification by turbulence in plasmas, a physical process thought to occur in many astrophysical phenomena.
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A new homologous series of side-chain liquid crystal polymers, the poly[omega-(4-cyanoazobenzene-4'-oxy)alkyl methacrylate]s, have been prepared in which the length of the flexible alkyl spacer is varied from 3 to 12 methylene units. All the polymers exhibit liquid crystalline behaviour; specifically, crystal E, smectic A and nematic phases are observed. The glass transition temperatures decrease on increasing spacer length before reaching a limiting value at ca. 30 degrees C. The clearing temperatures exhibit an odd-even effect on varying the length and parity of the spacer. This is attributed to the change in the average shape of the side chain as the parity of the spacer is varied. This rationalization also accounts for the observed alternation in the entropy change associated with the clearing transition. A weak relaxation is observed theologically for several members of this polymer series at temperatures above their respective glass transition temperatures. This is attributed either to specific motions of the smectic layers or to 180 degrees reorientational jumps of the long axis of the mesogenic unit about the polymer backbone. (C) 1997 Elsevier Science Ltd. All rights reserved.
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Using advanced numerical magneto-hydrodynamic simulations of the magnetized solar photosphere, including non-gray radiative transport and a non-ideal equation of state, we analyze plasma motions in photospheric magnetic vortices. We demonstrate that apparent vortex-like motions in photospheric magnetic field concentrations do not exhibit "tornado"-like behavior or a "bath-tub" effect. While at each time instance the velocity field lines in the upper layers of the solar photosphere show swirls, the test particles moving with the time-dependent velocity field do not demonstrate such structures. Instead, they move in a wave-like fashion with rapidly changing and oscillating velocity field, determined mainly by magnetic tension in the magnetized intergranular downflows. Using time-distance diagrams, we identify horizontal motions in the magnetic flux tubes as torsional Alfvén perturbations propagating along the nearly vertical magnetic field lines with local Alfvén speed.
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We investigate the generation mechanisms of MHD Poynting flux in the magnetized solar photosphere. Using radiative MHD modeling of the solar photosphere with initial magnetic configurations that differ in their field strength and geometry, we show the presence of two different mechanisms for MHD Poynting flux generation in simulations of solar photospheric magnetoconvection. The weaker mechanism is connected to vertical transport of weak horizontal magnetic fields in the convectively stable layers of the upper photosphere, while the stronger is the production of Poynting flux in strongly magnetized intergranular lanes experiencing horizontal vortex motions. These mechanisms may be responsible for the energy transport from the solar convection zone to the higher layers of the solar atmosphere.
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The visible matter in the universe is turbulent and magnetized. Turbulence in galaxy clusters is produced by mergers and by jets of the central galaxies and believed responsible for the amplification of magnetic fields. We report on experiments looking at the collision of two laser-produced plasma clouds, mimicking, in the laboratory, a cluster merger event. By measuring the spectrum of the density fluctuations, we infer developed, Kolmogorov-like turbulence. From spectral line broadening, we estimate a level of turbulence consistent with turbulent heating balancing radiative cooling, as it likely does in galaxy clusters. We show that the magnetic field is amplified by turbulent motions, reaching a nonlinear regime that is a precursor to turbulent dynamo. Thus, our experiment provides a promising platform for understanding the structure of turbulence and the amplification of magnetic fields in the universe.
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Electrical conductivity of the supercooled ionic liquid [C8MIM][NTf2], determined as a function of temperature and pressure, highlights strong differences in its ionic transport behavior between low and high temperature regions. To date, the crossover effect which is very well known for low molecular van der Waals liquids has been rarely described for classical ionic liquids. This finding highlights that the thermal fluctuations could be dominant mechanisms driving the dramatic slowing down of ion motions near Tg. An alternative way to analyze separately low and high temperature dc-conductivity data using a density scaling approach was then proposed. Based on which a common value of the scaling exponent [gamma] = 2.4 was obtained, indicating that the applied density scaling is insensitive to the crossover effect. By comparing the scaling exponent [gamma] reported herein along with literature data for other ionic liquids, it appears that [gamma] decreases by increasing the alkyl chain length on the 1-alkyl-3-methylimidazolium-based ionic liquids. This observation may be related to changes in the interaction between ions in solution driven by an increase in the van der Waals type interaction by increasing the alkyl chain length on the cation. This effect may be related to changes in the ionic liquid nanostructural organization with the alkyl chain length on the cation as previously reported in the literature based on molecular dynamic simulations. In other words, the calculated scaling exponent [gamma] may be then used as a key parameter to probe the interaction and/or self-organizational changes in solution with respect to the ionic liquid structure.
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This series of posts will consider the acting techniques required for this style of performance with reference to four productions from the 1990s in which two actors took on multiple roles: Frank Pig Says Hello (1992), Co-Motion’s stage adaptation of Pat McCabe’s novel; The Butcher Boy, Corca Dorca’s production of Disco Pigs (1996) by Enda Walsh; DubbleJoint’s production of Stones in his Pockets by Marie Jones (1996) and its subsequent award-winning revival which I produced at Belfast’s Lyric Theatre in 1999; and Kabosh’s production of Mojo Mickybo by Owen McCafferty (1998). The discussion will focus primarily on my own empirical exploration of the demands multi-roling places on an actor through the direction of recent revivals of Mojo Mickybo for Belfast’s Chatterbox Theatre Company (2013) and Bedlam Productions (2015).
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Here we review the recent progress made in the detection, examination, characterisation and interpretation of oscillations manifesting in small-scale magnetic elements in the solar photosphere. This region of the Sun's atmosphere is especially dynamic, and importantly, permeated with an abundance of magnetic field concentrations. Such magnetic features can span diameters of hundreds to many tens of thousands of km, and are thus commonly referred to as the `building blocks' of the magnetic solar atmosphere. However, it is the smallest magnetic elements that have risen to the forefront of solar physics research in recent years. Structures, which include magnetic bright points, are often at the diffraction limit of even the largest of solar telescopes. Importantly, it is the improvements in facilities, instrumentation, imaging techniques and processing algorithms during recent years that have allowed researchers to examine the motions, dynamics and evolution of such features on the smallest spatial and temporal scales to date. It is clear that while these structures may demonstrate significant magnetic field strengths, their small sizes make them prone to the buffeting supplied by the ubiquitous surrounding convective plasma motions. Here, it is believed that magnetohydrodynamic waves can be induced, which propagate along the field lines, carrying energy upwards to the outermost extremities of the solar corona. Such wave phenomena can exist in a variety of guises, including fast and slow magneto-acoustic modes, in addition to Alfven waves. Coupled with rapid advancements in magnetohydrodynamic wave theory, we are now in an ideal position to thoroughly investigate how wave motion is generated in the solar photosphere, which oscillatory modes are most prevalent, and the role that these waves play in supplying energy to various layers of the solar atmosphere.
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The shallow water kelp Laminaria digitata, abundant in coastal zones of the North Atlantic, is exposed to a range of hydrodynamic environments that makes it ideal for assessing the role of water motion on their growth rate. Here we quantify the growth of L. digitata, as a factor of blade and stipe elongation, at sites adjacent to Strangford Lough, Northern Ireland under different hydrodynamic conditions over a one year period. A modelling approach was used to numerically determine both the temporal and spatial variability of the hydrodynamic environment. Ambient seawater nutrient concentrations, temperature and irradiance were measured as well as the internal nutrient status of the L. digitata populations. Kelp populations growing in the greatest and lowest water motion showed the lowest growth rates. Differences observed in growth rate could not be attributed to seawater nutrient availability, temperature or light. The internal nutrient status also suggested no influence on the observed differences in growth rate. Therefore if there are minimal differences in light, temperature and nutrients between sites, then populations of L. digitata exposed to different water motions are likely to exhibit different growth rates. It is suggested that the growth rate differences observed were a function of water motion with the possibility that, in response to the hydrodynamic forces experienced by the algal cells, L. digitata kelps in the high energy environments were putting more energy into strengthening cell walls rather than blade elongation
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This chapter reviews the recent observations of waves and oscillations manifesting in fine-scale magnetic structures in the solar photosphere, which are often interpreted as the "building blocks' of the magnetic Sun. The authors found, through phase relationships between the various waveforms, that small-scale magnetic bright points (MBPs) in the photosphere demonstrated signatures of specific magnetoacoustic waves, in particular the sausage and kink modes. Modern magnetohydrodynamic (MHD) simulations of the lower solar atmosphere clearly show how torsional motions can easily be induced in magnetic elements in the photosphere through the processes of vortical motions and/or buffeting by neighboring granules. The authors detected significant power associated with high-frequency horizontal motions, and suggested that these cases may be especially important in the creation of a turbulent environment that efficiently promotes Alfvén wave dissipation.
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Cette recherche s'intéresse au parcours d'athlètes de haut niveau lors de leur transition d'une carrière sportive vers autre chose (nouvelle identité, nouvelle carrière, nouveaux projets, etc.). Même si les athlètes savent que la retraite sportive est la plupart du temps inévitable, plusieurs écrits soulignent les difficultés qui l'accompagnent, notamment sur le plan identitaire, les athlètes ayant à faire le deuil d'une identité fortement valorisée. Des retraités de la compétition sportive décrivent même cette étape comme le passage d'être exceptionnel à simple citoyen. Les écrits sur l'identité athlétique indiquent que le degré d'identification au rôle d'athlète et le degré d'exclusivité que la personne accorde à son rôle s'accroissent avec le niveau sportif atteint. La transition serait particulièrement difficile pour les athlètes de haut niveau, c'est-à-dire pour ceux qui ont obtenu une reconnaissance de leur statut d'athlète sous la forme d'une sélection pour des compétitions nationales ou internationales, dont les jeux olympiques. Lorsque ces personnes quittent la scène sportive, ils vivent un sentiment de vide et d'incertitude face à leur avenir. En plus d'avoir l'impression de perdre leur identité, ils disent manquer la stimulation, la reconnaissance sociale et le style de vie de leur ancienne vie. La transition serait particulièrement difficile pour les personnes qui partent à la retraite parce qu' elles y sont forcées, par exemple en raison de blessures. Les études qui ont utilisé une méthodologie qualitative ont permis de constater une évolution dans les questionnements identitaires des athlètes ainsi que sur la façon dont ils s'adaptent à leur nouvelle situation.Cette recherche poursuit dans cette voie en s'intéressant au parcours identitaire d'athlètes de haut niveau. Elle décrit les dynamiques et stratégies identitaires mises en oeuvre par des athlètes. Six athlètes de haut niveau ont été interrogés à propos de ce qu'ils ont vécu sur le plan identitaire durant leur carrière, mais principalement à partir du moment où celle-ci a pris fin. Les athlètes se sont également prononcés sur leurs projets d'avenir. Ces athlètes ont participé à la recherche sur une base volontaire, à la suite d'une invitation lancée par un organisme national de sport. Cet échantillonnage au hasard a mené à une grande diversité quant à la durée de la carrière (entre 15 et 25 ans de pratique sportive et 13 et 25 ans de participation à des compétitions), le nombre et l'ampleur des succès obtenus ainsi qu'au temps écoulé depuis leur retraite. Les données ont été analysées sous la forme d'études de cas, en faisant une mise en relation avec les composantes de l'identité athlétique (Cieslak, 2004), les dynamiques identitaires (Kaddouri, 1999, 2002, 2006) et les stratégies identitaires (Carver et al. , 2000). Même si tous les athlètes ont vécu une carrière marquée de succès importants, on observe une grande diversité dans la façon de réagir à la retraite. Certains s'engagent rapidement dans une dynamique de transformation identitaire, même avant la fin de la carrière, alors que d'autres passent par de nombreux tourments où se succède l'adoption de dynamiques identitaires différentes, axées parfois sur une redéfinition de l'identité ou une reconstruction de celle-ci. Les athlètes ont utilisé une grande diversité de stratégies pour s'adapter à leur nouvelle situation, parfois des stratégies de type résolution de problèmes par exemple en planifiant leur avenir avant de prendre leur retraite, parfois des stratégies de gestion des émotions, par exemple en réinterprétant la situation de façon positive ou en recherchant un soutien moral chez leurs proches. Certaines stratégies ont cependant été déclarées comme étant peu efficaces et les athlètes ont fourni quelques conseils pour les personnes qui font face à la transition de carrière sportive vers autre chose.
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En France, l'éducation à la biodiversité est devenue une priorité au regard de la dégradation de la diversité biologique. À l'école primaire, elle est rattachée à la fois aux disciplines scientifiques et au développement durable. Les apprentissages attendus suivent essentiellement deux dimensions : les savoirs bioécologiques et les comportements escomptés reliés à ces savoirs. Cependant, de nombreuses recherches font apparaître l'importance de la dimension affective dans ces apprentissages notamment au regard du rapport émotionnel entretenu avec les objets d'étude. Dans ce contexte, cette thèse explore les dimensions cognitive, affective et comportementale des apprentissages en éducation à la biodiversité. Le champ de recherche est restreint à l'étude d'arthropodes à l'école primaire. Quels sont les apprentissages d'élèves du primaire en éducation à la biodiversité dans le cas de l'étude d'arthropodes, selon la description, l'analyse et l'articulation de trois dimensions : savoir, affectivité et comportements ? Pour répondre à cette question, le cadre conceptuel s'appuie sur l'analyse des savoirs, sur le modèle de la maturité affective vis-à-vis des objets étudiés et sur l'opérationnalisation des comportements par les prises de position et intentions d'agir. Quatre objectifs sont poursuivis pour répondre à cette question : a) décrire et analyser chacune des trois dimensions, b) dégager les corrélations éventuelles entre les trois dimensions, c) identifier des profils particuliers d'apprenants, d) vérifier les effets d'une étude des arthropodes sur les apprentissages selon ces trois dimensions. La méthodologie utilisée suit deux perspectives : quantitative par une analyse multivariée des réponses à un questionnaire et qualitative par une analyse de réponses à la suite d'entretiens semi-dirigés. Les résultats obtenus ont permis de clarifier les trois dimensions considérées et d'éclairer leur articulation. La mesure et l'analyse de chaque dimension ont montré des différences significatives en fonction du type d'enseignement reçu en classe. Entre les dimensions analysées il existe des corrélations remarquables entre les savoirs, la maturité affective et les comportements. Des profils particuliers d'apprenants interreliant savoirs et affectivité ont pu être identifiés, ainsi que des profils généraux impliquant les trois dimensions. Nous avons pu constater l'importance de la relation affective avec les objets d'apprentissage qui, loin de perturber l'appropriation des savoirs aurait au contraire tendance à les renforcer tout en contribuant à construire des comportements citoyens et responsables.