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Henry talks for Bordeaux break down

first_imgSky Sports, the channel for whom Henry worked as a pundit for four years before quitting last month, said late on Monday that he had refused the offer to take his first managerial role since retiring as a player.According to French sports daily L’Equipe, Henry felt that he had not been given sufficient guarantees by General American Capital Partners (GACP), the American consortium expected to take over Bordeaux at the end of September from current owners, the media conglomerate M6.Despite his lack of experience as a coach, appointing the 41-year-old would have been a remarkable coup for Bordeaux, the six-time French champions.They are looking for a replacement for the Uruguayan Gustavo Poyet, whose departure from the club is expected to be made official later on Tuesday.Poyet was only appointed in January and led the club to European qualification at the end of last season, but he was suspended earlier this month after a very public outburst at directors over transfer policy.Henry, who had been working as an assistant coach to the Belgian national team, met GACP in New York at the end of last week having come to an initial agreement with M6.According to reports, however, Bordeaux were surprised by his salary demands given his lack of experience as a coach. Reports say he also wanted three new signings before the transfer window closes at the end of this week.Bordeaux had already been turned down by former coach Laurent Blanc and Remi Garde, another ex-Arsenal player who is now at Montreal Impact in Major League Soccer.As their search for a successor to Poyet goes on, interim coach Eric Bedouet is set to take charge of the team in their next game, the Europa League play-off, second leg at home to Belgian club Gent on Thursday.0Shares0000(Visited 1 times, 1 visits today) 0Shares0000Thierry Henry will not join Bordeax, the French club has confirmed© AFP CHRISTOPHE SIMONBORDEAUX, France, Aug 28 – Thierry Henry will not be the next coach of Bordeaux, with the French club’s president confirming to AFP on Tuesday that negotiations had broken down.“Yes, we can confirm the end of those negotiations,” Stephane Martin told AFP, following earlier reports in France and England that Henry had turned the job down.last_img read more

Trio create model to explain massive heat in the Suns corona

first_img(Phys.org)—A trio of researchers, two with Ecole Polytechnique and the other with Université Paris, all in France, has created a computer model that is meant to show how it is that so much heat is in the sun’s corona. In their paper published in the journal Nature, Tahar Amari, Jean-François Luciani and Jean-Jacques Aly describe their model, how it came about and why they think it is accurate. Emissions from various layers of the solar atmosphere, using data from the NASA Iris mission. Credit: Tahar Amari /Centre de physique théorique.CNRS-Ecole Polytechnique. FRANCE Citation: Trio create model to explain massive heat in the Sun’s corona (2015, June 11) retrieved 18 August 2019 from https://phys.org/news/2015-06-trio-massive-sun-corona.html Exploring the solar magnetic Mangrove and below . This movie shows an observer (author) looking at and exploring the solar magnetic Mangrove , and diving below the surface of the Sun. This movie was created using the CAVE virtual reality system of TechViz (Paris). Credit: Tahar Amari /Centre de physique théorique.CNRS-Ecole Polytechnique.FRANCE The trio point to other observable phenomena that help bolster the credence of their theory—the fact that the temperature of the corona does not vary much over the course of sunspot cycles, for example, which they say is because the sun’s magnetic field is not sensitive to it, because they are deeply rooted in the sun—their model describes shallow activity. Also, they note that other researchers have found evidence of solar tornadoes, which in a way are similar to the trees describe by the model and which can also transport heat up and off the surface. And finally, other observations have revealed that spectral lines of some elements are split into multiple components on the surface, which they team suggests would occur if there happened to be a magnetic field like the one they use in their model.More research will have to be conducted both by the research team and others, of course, to see if the model will continue to hold up under scrutiny. This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. More information: Small-scale dynamo magnetism as the driver for heating the solar atmosphere, Nature 522, 188–191 (11 June 2015) DOI: 10.1038/nature14478AbstractThe long-standing problem of how the solar atmosphere is heated has been addressed by many theoretical studies, which have stressed the relevance of two specific mechanisms, involving magnetic reconnection and waves, as well as the necessity of treating the chromosphere and corona together. But a fully consistent model has not yet been constructed and debate continues, in particular about the possibility of coronal plasma being heated by energetic phenomena observed in the chromosphere. Here we report modelling of the heating of the quiet Sun, in which magnetic fields are generated by a subphotospheric fluid dynamo intrinsically connected to granulation. We find that the fields expand into the chromosphere, where plasma is heated at the rate required to match observations (4,500 watts per square metre) by small-scale eruptions that release magnetic energy and drive sonic motions. Some energetic eruptions can even reach heights of 10 million metres above the surface of the Sun, thereby affecting the very low corona. Extending the model by also taking into account the vertical weak network magnetic field allows for the existence of a mechanism able to heat the corona above, while leaving unchanged the physics of chromospheric eruptions. Such a mechanism rests on the eventual dissipation of Alfvén waves generated inside the chromosphere and that carry upwards the required energy flux of 300 watts per square metre. The model shows a topologically complex magnetic field of 160 gauss on the Sun’s surface, agreeing with inferences obtained from spectropolarimetric observations, chromospheric features (contributing only weakly to the coronal heating) that can be identified with observed spicules and blinkers, and vortices that may be possibly associated with observed solar tornadoes8. Explore further Emissions from various layers of the solar atmosphere, using data from the NASA Iris mission. Credit: Tahar Amari /Centre de physique théorique.CNRS-Ecole Polytechnique. FRANCE © 2015 Phys.orgcenter_img SOHO and Hinode offer new insight into solar eruptions Model of the complex magnetic field on the Sun’s surface, resembling the roots and branches of mangroves, rooted in the boiling Sun. Credit: Tahar Amari /Centre de physique théorique.CNRS-Ecole Polytechnique.FRANCE Solar disk image taken in 2011 with large scale atmosphere during as visible during an eclipse in 2008. Credit: Tahar Amari /Centre de physique théorique.CNRS-Ecole Polytechnique.FRANCE & Eclipse S.Habbal and M. DruckMuller. This movie shows the heating obtained by the model at the heart of the discovery. The model allows a closer look at high resolution of Sun horizon. The boiling pan of plasma just underneath the surface of the Sun, generates and feed the magnetic field that emerges above and create the magnetic Mangrove, whose roots dance like flames as they are heated. Credit: Tahar Amari /Centre de physique théorique.CNRS-Ecole Polytechnique.FRANCE. Model of the complex magnetic field on the Sun’s surface, resembling the roots and branches of mangroves, rooted in the boiling Sun. Credit: Tahar Amari /Centre de physique théorique.CNRS-Ecole Polytechnique.FRANCE For some time space scientists have been perplexed by research results that show the sun’s corona is millions of degrees hotter than its surface. In this new effort, the researchers built a model that describes how that might occur and then offer some evidence to back up their claims.Scientists know that on the sun’s surface, rotating areas of gas create what are known as dynamos—where plasma causes charges to come about. In their model, the researchers suggest that when such dynamos “dump” their energy, it causes small eruptions to come about on the surface, allowing energy to dissipate out to the corona. The team describes their model as resembling a mangrove forest. The roots of the trees represent surface magnetic fields—energy makes its way up the trees and dissipates near the top like oxygen from tree leaves into the atmosphere, and that is how the energy reaches the corona. Journal information: Naturelast_img read more