Your search keyword '"Herve Wozniak"' showing total 2 results

1. On the origin of M81 group extended dust emission

Author

Bernhard Schulz, L. Spinoglio, Maud Galametz, Andreas Papageorgiou, Jason Glenn, Jonathan Ivor Davies, Marc Sauvage, N. Lu, Matthew Joseph Griffin, Eli Dwek, Robbie Richard Auld, D. Elbaz, Seb Oliver, M. J. Barlow, Herve Wozniak, Laure Ciesla, B. O'Halloran, L. R. Levenson, Ismael Perez-Fournon, Alessandro Boselli, A. Rykala, M. Bradford, M. Trichas, Christine D. Wilson, Frédéric Galliano, Walter Kieran Gear, Naseem Rangwala, George J. Bendo, Maximilien R. P. Schirm, Maarten Baes, Mat Page, A. Cooray, Jamie Stevens, Mattia Vaccari, Koryo Okumura, N. Sacchi, Sundar Srinivasan, T. J. Parkin, Diane Cormier, Suzanne C. Madden, Pasquale Panuzzo, N. Castro-Rodriguez, V. Buat, E. E. Rigby, Michael Pohlen, Kate Gudrun Isaak, M. Symeonidis, Matthew Smith, Helene Roussel, David L. Clements, Luca Cortese, L. Vigroux, James J. Bock, Stephane Charlot, Sacha Hony, Gillian S. Wright, Haley Louise Gomez, Pierre Chanial, Stephen Anthony Eales, and Werner W. Zeilinger

Subjects

Physics, Infrared, Astrophysics::High Energy Astrophysical Phenomena, Astronomy and Astrophysics, Minute of arc, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Galaxy, Wavelength, Space and Planetary Science, Group (periodic table), Cirrus, Optical emission spectroscopy, Astrophysics::Galaxy Astrophysics, Dust emission

Abstract

Galactic cirrus emission at far-infrared wavelengths affects many extragalactic observations. Separating this emission from that associated with extragalactic objects is both important and difficult. In this paper we discuss a particular case, the M81 group, and the identification of diffuse structures prominent in the infrared, but also detected at optical wavelengths. The origin of these structures has previously been controversial, ranging from them being the result of a past interaction between M81 and M82 or due to more local Galactic emission. We show that over of order a few arcminute scales the far-infrared (Herschel 250 &\mu&m) emission correlates spatially very well with a particular narrow velocity (2-3 km/s) component of the Galactic HI. We find no evidence that any of the far-infrared emission associated with these features actually originates in the M81 group. Thus we infer that the associated diffuse optical emission must be due to galactic light back scattered off dust in our galaxy. Ultra-violet observations pick out young stellar associations around M81, but no detectable far-infrared emission. We consider in detail one of the Galactic cirrus features, finding that the far-infrared HI relation breaks down below arc minute scales and that at smaller scales there can be quite large dust temperature variations.

Published

2010

2. Lifetime of nuclear velocity dispersion drops in barred galaxies

Author

Nicolas Champavert and Herve Wozniak

Subjects

Physics, Star formation, Drop (liquid), Sigma, Velocity dispersion, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Central region, Galaxy, Space and Planetary Science, Bulge, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

We have made hydro/N-body simulations with and without star formation to shed some light on the conditions under which a central kinematically cold stellar component (characterized by a velocity dispersion drop or \sigma-drop) could be created in a hot medium (e.g. a bulge) and survive enough time to be observed. We found that the timescale for a \sigma-drop formation could be short (less than 500 Myr) whereas its lifetime could be long (more than 1 Gyr) provided that the central region is continuously or regularly fed by fresh gas which leads to a continuous star formation activity. Star formation in the central region, even at a low rate as 1M_{sol} yr^{-1}, is mandatory to sustain a permanent \sigma-drop by replacing heated particles by new low-\sigma ones. We moreover show that as soon as star formation is switched off, the \sigma-drop begins to disappear.

Published

2006