1 / 16

Magnetic and X-ray diagnostics of interactions of spiral galaxies in a cluster environment

M. Weżgowiec 1 , M. Ehle 2 , M. Urbanik 1 , R. Beck 3 , B. Vollmer 4 , K.T. Chyż y 1 , M. Soida 1 , Ch. Balkowski 5 1 Obserwatorium Astronomiczne Uniwersytetu Jagiellońskiego, Kraków, Poland 2 ESAC, XMM-Newton Science Operations Centre, Villanueva de la Cańada, Madrid, Spain

hinda
Télécharger la présentation

Magnetic and X-ray diagnostics of interactions of spiral galaxies in a cluster environment

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. M. Weżgowiec1, M. Ehle2, M. Urbanik1, R. Beck3, B. Vollmer4, K.T. Chyży1, M. Soida1, Ch. Balkowski5 1Obserwatorium Astronomiczne Uniwersytetu Jagiellońskiego, Kraków, Poland 2ESAC, XMM-Newton Science Operations Centre, Villanueva de la Cańada, Madrid, Spain 3Max-Planck-Institut für Radioastronomie, Bonn, Germany 4CDS, Observatoire astronomique de Strasbourg, Strasbourg, France 5Observatoire de Paris, GEPI, CNRS, and Universite Paris 7, Meudon Cedex, France Magnetic and X-ray diagnostics of interactions of spiral galaxies in a cluster environment

  2. What & How • An attempt to study cluster environment • Polarization as a very useful tool • X-ray extended emission as an another very useful tool • Objects and instruments • Up to date results • First scientific conclusions • Future aims

  3. Polarized intensity studies • Clues about the magnetic fields • Good tool to investigate perturbations in galaxies (compression effects, distorted ISM distribution)

  4. X-ray studies • Soft X-ray emission traces hot gas  extended emission helps to examine past or present perturbations of the hot ICM, via spatial and spectral analysis

  5. Objects and instruments

  6. Results • Altogether 12 Virgo spirals at 2.8, 3.6 and 6 cm (both TP and PI measured) • For most of them RM maps possible • So far 2 Virgo spirals in X-rays (0.2 – 0.8 keV for extended emission) • More needed !!

  7. Results – NGC 4254 • NGC 4254 (M 99) • In the cluster outskirts • Perturbed galaxy, X-ray emission (compression or high SF?) - Chyzy et al. 2007 • Perturbation most likely produced by gravitational interaction – with dark cloud VIRGOHI 21?

  8. Results – NGC 4302/4298 • NGC 4302 interacting (?) with companion galaxy NGC 4298 • Interesting polarized structures (i.e. extraplanar features), however, better resolution would help

  9. Results – NGC 4388 • NGC 4388 in the heart of VC • Strong stripping possible • Central activity • Extraplanar features – better seen with the VLA (Vollmer et al. 2007)

  10. Results – NGC 4438 • NGC 4438. Galaxy near the cluster core • Central activity • Peculiar overall shape due to tidal interactions with the NGC 4435 companion

  11. Results – NGC 4501 • NGC 4501 – an „upside down” galaxy • Strong compression in SW (85% of polarized intensity distributed west of major axis) • 3D localization thanks to polarization and kinematic studies!!

  12. Results – NGC 4535 • NGC 4535 in the southern subcluster • So far, the most extreme case polarization asymmetry • Polarized intensity peaks in the outer optical arm • Even at better resolution

  13. Results – NGC 4569 • NGC 4569 (M90) with giant radio lobes in an otherwise normal spiral • Extended X-ray emission suggestive for hot gas outflows • Probable nuclear starburst in the past

  14. Results – NGC 4654 • NGC 4654 - a comet-like galaxy - compression leaves no doubts about the direction in which this galaxy moves • Possibly a good candidate for a „ram-pressure pushing”

  15. First scientific conclusions • Cluster galaxies show signs of interaction with the ICM as well as with each other • Ram-pressure stripping concept seems to work quite well • High density ICM exists not necessarily only in the cluster core (NGC 4535)  we might detect it by observing a single galaxy in radio polarization and in X-rays • Because of a high density of galaxies tidal interactions may lead to a higher fractions of active galaxies than among the field objects • Together with the CO, Hα and H I observations we might eventually get a full picture (preferably sculpture) of this cluster as a whole (first successes  3D localizations of NGC 4501 and 4654)

  16. Future aims • Combination of existing Effelsberg and VLA data (for almost all presented galaxies) • Obtain X-ray observations of as many as possible of our target galaxies; search for spatial & spectral signatures for interactions in the hot gas • Putting everything together, kinematic analysis, simulations (already performed for NGC 4654 and NGC 4501)

More Related