Your search keyword '"Mathis S"' showing total 15 results

1. The impact of magnetism on tidal dynamics in the convective envelope of low-mass stars.

Author

Astoul, A., Mathis, S., Baruteau, C., Gallet, F., Strugarek, A., Augustson, K. C., Brun, A. S., Bolmont, E., Kosovichev, Alexander, Strassmeier, Klaus, and Jardine, Moira

Abstract

For the shortest period exoplanets, star-planet tidal interactions are likely to have played a major role in the ultimate orbital evolution of the planets and on the spin evolution of the host stars. Although low-mass stars are magnetically active objects, the question of how the star's magnetic field impacts the excitation, propagation and dissipation of tidal waves remains open. We have derived the magnetic contribution to the tidal interaction and estimated its amplitude throughout the structural and rotational evolution of low-mass stars (from K to F-type). We find that the star's magnetic field has little influence on the excitation of tidal waves in nearly circular and coplanar Hot-Jupiter systems, but that it has a major impact on the way waves are dissipated. [ABSTRACT FROM AUTHOR]

Published

2021

2. The impact of magnetism on tidal dynamics in the convective envelope of low-mass stars.

Author

Astoul, A., Mathis, S., Baruteau, C., Gallet, F., Strugarek, A., Augustson, K. C., Brun, A. S., Bolmont, E., Kosovichev, Alexander, Strassmeier, Klaus, and Jardine, Moira

Abstract

For the shortest period exoplanets, star-planet tidal interactions are likely to have played a major role in the ultimate orbital evolution of the planets and on the spin evolution of the host stars. Although low-mass stars are magnetically active objects, the question of how the star's magnetic field impacts the excitation, propagation and dissipation of tidal waves remains open. We have derived the magnetic contribution to the tidal interaction and estimated its amplitude throughout the structural and rotational evolution of low-mass stars (from K to F-type). We find that the star's magnetic field has little influence on the excitation of tidal waves in nearly circular and coplanar Hot-Jupiter systems, but that it has a major impact on the way waves are dissipated. [ABSTRACT FROM AUTHOR]

Published

2019

3. Angular momentum transport in stars: From short to long time scales

Author

Brun, A. S., primary and Mathis, S., additional

4. Asteroseismology and spectropolarimetry: opening new windows on the internal dynamics of massive stars.

Author

Mathis, S., Neiner, C., Meynet, Georges, Georgy, Cyril, Groh, José, and Stee, Philippe

Abstract

In this article, we show how asteroseismology and spectropolarimetry allow to probe dynamical processes in massive star interiors. First, we give a summary of the state-of-the-art. Second, we recall the MHD mechanisms that take place in massive stars. Next, we show how asteroseismology gives strong constraints on the internal mixing and transport of angular momentum while spectropolarimetry allows to unravel the role played by magnetic fields. [ABSTRACT FROM PUBLISHER]

Published

2014

5. The BinaMIcS project: understanding the origin of magnetic fields in massive stars through close binary systems.

Author

Alecian, E., Neiner, C., Wade, G. A., Mathis, S., Bohlender, D., Cébron, D., Folsom, C., Grunhut, J., Le Bouquin, J.-B., Petit, V., Sana, H., Tkachenko, A., ud-Doula, A., Meynet, Georges, Georgy, Cyril, Groh, José, and Stee, Philippe

Abstract

It is now well established that a fraction of the massive (M > 8 M⊙) star population hosts strong, organised magnetic fields, most likely of fossil origin. The details of the generation and evolution of these fields are still poorly understood. The BinaMIcS project takes an important step towards the understanding of the interplay between binarity and magnetism during the stellar formation and evolution, and in particular the genesis of fossil fields, by studying the magnetic properties of close binary systems. The components of such systems are most likely formed together, at the same time and in the same environment, and can therefore help us to disentangle the role of initial conditions on the magnetic properties of the massive stars from other competing effects such as age or rotation. We present here the main scientific objectives of the BinaMIcS project, as well as preliminary results from the first year of observations from the associated ESPaDOnS and Narval spectropolarimetric surveys. [ABSTRACT FROM PUBLISHER]

Published

2014

6. The magnetic characteristics of Galactic OB stars from the MiMeS survey of magnetism in massive stars.

Author

Wade, G. A., Grunhut, J., Alecian, E., Neiner, C., Aurière, M., Bohlender, D. A., David-Uraz, A., Folsom, C., Henrichs, H. F., Kochukhov, O., Mathis, S., Owocki, S., Petit, V., Petit, Pascal, Jardine, Moira, and Spruit, Hendrik C.

Abstract

The Magnetism in Massive Stars (MiMeS) project represents the largest systematic survey of stellar magnetism ever undertaken. Based on a sample of over 550 Galactic B and O-type stars, the MiMeS project has derived the basic characteristics of magnetism in hot, massive stars. Herein we report preliminary results. [ABSTRACT FROM PUBLISHER]

Published

2013

7. CP and related phenomena in the context of Stellar Evolution.

Author

Braithwaite, J., Akgün, T., Alecian, E., Kholtygin, A. F., Landstreet, J. D., Mathis, S., Michaud, G., Portnoy, J., Alecian, G., Bychkov, V. D., Bychkova, L. V., Drake, N., Fabrika, S. N., Reisenegger, A., Steinitz, R., and Vick, M.

Abstract

We review the interaction in intermediate and high mass stars between their evolution and magnetic and chemical properties. We describe the theory of Ap-star ‘fossil’ fields, before touching on the expected secular diffusive processes which give rise to evolution of the field. We then present recent results from a spectropolarimetric survey of Herbig Ae/Be stars, showing that magnetic fields of the kind seen on the main-sequence already exist during the pre-main sequence phase, in agreement with fossil field theory, and that the origin of the slow rotation of Ap/Bp stars also lies early in the pre-main sequence evolution; we also present results confirming a lack of stars with fields below a few hundred gauss. We then seek which macroscopic motions compete with atomic diffusion in determining the surface abundances of AmFm stars. While turbulent transport and mass loss, in competition with atomic diffusion, are both able to explain observed surface abundances, the interior abundance distribution is different enough to potentially lead to a test using asterosismology. Finally we review progress on the turbulence-driving and mixing processes in stellar radiative zones. [ABSTRACT FROM PUBLISHER]

Published

2009

8. Impact of large-scale magnetic fields on stellar structure and evolution.

Author

Duez, Vincent, Mathis, S., Brun, A. S., and Turck-Chièze, S.

Abstract

We study the impact on the stellar structure of a large-scale magnetic field in stellar radiation zones. The field is in magneto-hydrostatic (MHS) equilibrium and has a non force-free character, which allows us to study its influence both on the mechanical and and on the energetic balances. This approach is illustrated in the case of an Ap star where the magnetic field matches at the surface with an external potential one. Perturbations of the stellar structure are semi-analytically computed. The relative importance of the magnetic physical quantities is discussed and a hierarchy, aiming at distinguishing various refinement degrees in the implementation of a large-scale magnetic field in a stellar evolution code, is established. This treatment also allows us to deduce the gravitational multipolar moments and the change in effective temperature associated with the presence of a magnetic field. [ABSTRACT FROM PUBLISHER]

Published

2008

9. Joint Discussion 17 Highlights of recent progress in the seismology of the Sun and Sun-like stars.

Author

Bedding, Timothy R., Brun, Allan S., Christensen-Dalsgaard, Jørgen, Crouch, Ashley, De Cat, Peter, García, Raphael A., Gizon, Laurent, Hill, Frank, Kjeldsen, Hans, Leibacher, John W., Maillard, Jean-Pierre, Mathis, S., Rabello-Soares, M. Cristina, Rozelot, Jean-Pierre, Rempel, Matthias, Roxburgh, Ian W., Samadi, Réza, Talon, Suzanne, and Thompson, Michael J.

Abstract

The seismology and physics of localized structures beneath the surface of the Sun takes on a special significance with the completion in 2006 of a solar cycle of observations by the ground-based Global Oscillation Network Group (GONG) and by the instruments on board the Solar and Heliospheric Observatory (SOHO). Of course, the spatially unresolved Birmingham Solar Oscillation Network (BiSON) has been observing for even longer. At the same time, the testing of models of stellar structure moves into high gear with the extension of deep probes from the Sun to other solar-like stars and other multi-mode pulsators, with ever-improving observations made from the ground, the success of the MOST satellite, and the recently launched CoRoT satellite. Here we report the current state of the two closely related and rapidly developing fields of helio- and asteroseimology. [ABSTRACT FROM PUBLISHER]

Published

2006

10. Tidal interactions in rotating multiple stars and their impact on their evolution.

Author

Auclair-Desrotour, P., Mathis, S., Le Poncin-Lafitte, C., Meynet, Georges, Georgy, Cyril, Groh, José, and Stee, Philippe

Abstract

Tidal dissipation in stars is one of the key physical mechanisms that drive the evolution of binary and multiple stars. As in the Earth oceans, it corresponds to the resonant excitation of their eigenmodes of oscillation and their damping. Therefore, it strongly depends on the internal structure, rotation, and dissipative mechanisms in each component. In this work, we present a local analytical modeling of tidal gravito-inertial waves excited in stellar convective and radiative regions respectively. This model allows us to understand in details the properties of the resonant tidal dissipation as a function of the excitation frequencies, the rotation, the stratification, and the viscous and thermal properties of the studied fluid regions. Then, the frequencies, height, width at half-height, and number of resonances as well as the non-resonant equilibrium tide are derived analytically in asymptotic regimes that are relevant in stellar interiors. Finally, we demonstrate how viscous dissipation of tidal waves leads to a strongly erratic orbital evolution in the case of a coplanar binary system. We characterize such a non-regular dynamics as a function of the height and width of resonances, which have been previously characterized thanks to our local fluid model. [ABSTRACT FROM PUBLISHER]

Published

2014

11. Impact of rotation on the geometrical configurations of fossil magnetic fields.

Author

Emeriau, C., Mathis, S., Meynet, Georges, Georgy, Cyril, Groh, José, and Stee, Philippe

Abstract

The MiMeS project demonstrated that a small fraction of massive stars (around 7%) presents large-scale, stable, generally dipolar magnetic fields at their surface. These fields that do not present any evident correlations with stellar mass or rotation are supposed to be fossil remnants of the initial phases of stellar evolution. They result from the relaxation to MHD equilibrium states, during the formation of stable radiation zones, of initial fields resulting from a previous convective phase. In this work, we present new theoretical results, where we generalize previous studies by taking rotation into account. The properties of relaxed fossil fields are compared to those obtained when rotation is ignored. Consequences for magnetic fields in the radiative envelope of rotating early-type stars and their stability are finally discussed. [ABSTRACT FROM PUBLISHER]

Published

2014

12. Stochastic excitation of gravity waves in rapidly rotating massive stars.

Author

Mathis, S., Neiner, C., Meynet, Georges, Georgy, Cyril, Groh, José, and Stee, Philippe

Abstract

Stochastic gravity waves have been recently detected and characterised in stars thanks to space asteroseismology and they may play an important role in the evolution of stellar angular momentum. In this context, the observational study of the CoRoT hot Be star HD 51452 suggests a potentially strong impact of rotation on stochastic excitation of gravito-inertial waves in rapidly rotating stars. In this work, we present our results on the action of the Coriolis acceleration on stochastic wave excitation by turbulent convection. We study the change of efficiency of this mechanism as a function of the waves' Rossby number and we demonstrate that the excitation presents two different regimes for super-inertial and sub-inertial frequencies. Consequences for rapidly rotating early-type stars and the transport of angular momentum in their interiors are discussed. [ABSTRACT FROM PUBLISHER]

Published

2014

13. On MHD rotational transport, instabilities and dynamo action in stellar radiation zones.

Author

Mathis, S., Zahn, J.-P., and Brun, A.-S.

Abstract

Magnetic field is an essential dynamical process in stellar radiation zones. Moreover, it has been suggested that a dynamo action, sustained by a MHD instability which affects the toroidal axisymmetric magnetic field, could lead to a strong transport of angular momentum and of chemicals in such regions. Here, we recall the different magnetic transport and mixing processes in radiative regions. Next, we show that the dynamo cannot operate as described by Spruit (2002) and recall the condition required to close the dynamo loop. We perform high-resolution 3D simulations with the ASH code, where we observe indeed the MHD instability, but where we do not detect any dynamo action, contrary to J. Braithwaite (2006). We conclude on the picture we get for magnetic transport mechanisms in radiation zones and the associated consequences for stellar evolution. [ABSTRACT FROM PUBLISHER]

Published

2008

14. Information service on new and emerging health technologies: identification and prioritization processes for a European union-wide newsletter.

Author

Wild C, Simpson S, Douw K, Geiger-Gritsch S, Mathis S, and Langer T

Subjects

Program Development, Surveys and Questionnaires, European Union, Information Dissemination, Periodicals as Topic, Technology Assessment, Biomedical

Abstract

Objectives: EUnetHTA WP 7 (Strand B) aimed to promote sharing information on new and emerging technologies. The task was to develop a prototype of a newsletter and pilot the processes of production., Methods: The EuroScan database served as information source on pertinent technologies. To prioritize, a set of criteria for scoring the potential impact and for selecting the technologies for articles was applied and a pilot newsletter was produced., Results: Being objective and transparent about the content of a newsletter required a method for prioritizing health technologies. Using significance criteria, members of the prioritization panel selected twelve technologies for articles of different length and depth. Potential recipients, surveyed on relevance, content, timeliness, and readability responded mostly positive, but requested more information on cost effectiveness and criticized timeliness., Conclusions: Dissemination of an EU-wide newsletter would be feasible, but time-consuming. Although a newsletter appears to fulfill a need for information on emerging and new health technologies, it is not considered the right tool to avoid duplication of effort in the present international constellation of horizon scanning for new health technologies. Other options will be pursued as part of future collaborative actions, for example, a core set of early awareness information, or an on-demand electronic information system.

Published

2009

15. Impact of Bordetella pertussis exposures on a Massachusetts tertiary care medical system.

Author

Zivna I, Bergin D, Casavant J, Fontecchio S, Nelson S, Kelley A, Mathis S, Melvin Z, Erlichman R, and Ellison RT 3rd

Subjects

Anti-Bacterial Agents economics, Anti-Bacterial Agents therapeutic use, Bordetella pertussis isolation & purification, Cross Infection microbiology, Cross Infection prevention & control, Disease Outbreaks economics, Guideline Adherence, Hospital Costs, Humans, Infection Control organization & administration, Infectious Disease Transmission, Professional-to-Patient economics, Massachusetts epidemiology, Patient Isolation, Personnel, Hospital, Pertussis Vaccine, Retrospective Studies, Whooping Cough economics, Whooping Cough prevention & control, Academic Medical Centers economics, Contact Tracing economics, Cross Infection epidemiology, Disease Outbreaks prevention & control, Infection Control economics, Infectious Disease Transmission, Professional-to-Patient statistics & numerical data, Whooping Cough epidemiology

Abstract

Objective: To assess the impact of outbreaks of Bordetella pertussis infection on a tertiary care medical system., Design: Retrospective study., Setting: Academic tertiary care medical center and affiliated ambulatory care settings., Subjects: All patients and healthcare workers (HCWs) who were in close contact with patients with laboratory-confirmed cases of B. pertussis infection from October 1, 2003, through September 30, 2004., Intervention: Direct and indirect medical center costs were determined, including low and high estimates of time expended in the evaluation and management of exposed patients and HCWs during outbreak investigations of laboratory-confirmed cases of B. pertussis infection., Results: During this period, 20 primary and 3 secondary laboratory-confirmed cases of B. pertussis infection occurred, with 2 primary pertussis cases and 1 secondary case occurring in HCWs. Outbreak investigations prompted screening of 353 medical center employees. Probable or definitive exposure was identified for 296 HCWs, and 287 subsequently received treatment or prophylaxis for B. pertussis infection. Direct medical center costs for treatment and prophylaxis were $13,416 and costs for personnel time were $19,500-$31,190. Indirect medical center costs for time lost from work were $51,300-$52,300. The total cost of these investigations was estimated to be $85,066-$98,456., Conclusions: Frequent B. pertussis exposures had a major impact on our facility. Given the impact of exposures on healthcare institutions, routine vaccination for HCWs may be beneficial.

Published

2007