Your search keyword '"Kronberger P"' showing total 15 results

1. Metal enrichment of the intra-cluster medium by thermally and cosmic-ray driven galactic winds

Author

Kapferer, W., Kronberger, T., Breitschwerdt, D., Schindler, S., van Kampen, E., Kimeswenger, S., Domainko, W., Mair, M., Ruffert, M., Kapferer, W., Kronberger, T., Breitschwerdt, D., Schindler, S., van Kampen, E., Kimeswenger, S., Domainko, W., Mair, M., and Ruffert, M.

Abstract

Aims. We investigate the efficiency and time-dependence of thermally and cosmic ray driven galactic winds for the metal enrichment of the intra-cluster medium (ICM) using a new analytical approximation for the mass outflow. The spatial distribution of the metals are studied using radial metallicity profiles and 2D metallicity maps of the model clusters as they would be observed by X-ray telescopes like XMM-Newton.

Published

2009

2. Internal kinematics of spiral galaxies in distant clusters***

Author

Kutdemir, E., Ziegler, B. L., Peletier, R. F., Da Rocha, C., Kronberger, T., Kapferer, W., Schindler, S., Böhm, A., Jäger, K., Kuntschner, H., Verdugo, M., Kutdemir, E., Ziegler, B. L., Peletier, R. F., Da Rocha, C., Kronberger, T., Kapferer, W., Schindler, S., Böhm, A., Jäger, K., Kuntschner, H., and Verdugo, M.

Abstract

Context. We continue our investigation on how the cluster environment affects the evolution of galaxies.

Published

2008

3. The effects of ram-pressure stripping on the internal kinematics of simulated spiral galaxies

Author

Kronberger, T., Kapferer, W., Unterguggenberger, S., Schindler, S., Ziegler, B. L., Kronberger, T., Kapferer, W., Unterguggenberger, S., Schindler, S., and Ziegler, B. L.

Abstract

Aims. We investigate the influence of ram-pressure stripping on the internal gas kinematics of simulated spiral galaxies. Additional emphasis is put on the question of how the resulting distortions of the gaseous disc are visible in the rotation curve and/or the full 2D velocity field of galaxies at different redshifts.

Published

2008

4. 2D velocity fields of simulated interacting disc galaxies

Author

Kronberger, T., Kapferer, W., Schindler, S., Ziegler, B. L., Kronberger, T., Kapferer, W., Schindler, S., and Ziegler, B. L.

Abstract

We investigate distortions in the velocity fields of disc galaxies and their use in revealing the dynamical state of interacting galaxies at different redshifts. We model disc galaxies in combined N-body/hydrodynamic simulations. 2D velocity fields of the gas are extracted, which we place at different redshifts from $z=0$to $z=1$to investigate resolution effects on the properties of the velocity field. To quantify the structure of the velocity field we also perform a kinemetry analysis. If the galaxy is undisturbed we find that the rotation curve extracted from the 2D field agrees well with long-slit rotation curves. This is not true for interacting systems, as the kinematic axis is not well defined and in general does not coincide with the photometric axis of the system. For large (Milky way type) galaxies we find that distortions are still visible at intermediate redshifts but are partly smeared out. Thus a careful analysis of the velocity field is necessary before using it for a Tully-Fisher study. For small galaxies (disc scale length ~2 kpc) even strong distortions are not visible in the velocity field at $z\approx0.5$with currently available angular resolution. Therefore we conclude that current distant Tully-Fisher studies cannot give reliable results for low-mass systems. Additionally we confirm the power of near-infrared integral field spectrometers in combination with adaptive optics (such as SINFONI) to study velocity fields of galaxies at high redshift ($z\sim2$).

Published

2007

5. X-ray measured metallicities of the intra-cluster medium: a good measure for the metal mass?

Author

Kapferer, W., Kronberger, T., Weratschnig, J., Schindler, S., Kapferer, W., Kronberger, T., Weratschnig, J., and Schindler, S.

Abstract

Aims.We investigate whether X-ray observations map heavy elements in the Intra-Cluster Medium (ICM) well and whether the X-ray observations yield good estimates for the metal mass, with respect to predictions on transport mechanisms of heavy elements from galaxies into the ICM. We further test the accuracy of simulated metallicity maps.

Published

2007

6. Metal enrichment of the intra-cluster medium over a Hubble time for merging and relaxed galaxy clusters

Author

Kapferer, W., Kronberger, T., Weratschnig, J., Schindler, S., Domainko, W., van Kampen, E., Kimeswenger, S., Mair, M., Ruffert, M., Kapferer, W., Kronberger, T., Weratschnig, J., Schindler, S., Domainko, W., van Kampen, E., Kimeswenger, S., Mair, M., and Ruffert, M.

Abstract

We investigate the efficiency of galactic mass loss, triggered by ram-pressure stripping and galactic winds of cluster galaxies, on the chemical enrichment of the intra-cluster medium (ICM). We combine N-body and hydrodynamic simulations with a semi-numerical galaxy formation model. By including simultaneously different enrichment processes, namely ram-pressure stripping and galactic winds, in galaxy-cluster simulations, we are able to reproduce the observed metal distribution in the ICM. We find that the mass loss by galactic winds in the redshift regime $z>2$is ~10% to 20% of the total galactic wind mass loss, whereas the mass loss by ram-pressure stripping in the same epoch is up to 5% of the total ram-pressure stripping mass loss over the whole simulation time. In the cluster formation epochs $z<2$ram-pressure stripping becomes more dominant than galactic winds. We discuss the non-correlation between the evolution of the mean metallicity of galaxy clusters and the galactic mass losses. For comparison with observations we present two dimensional maps of the ICM quantities and radial metallicity profiles. The shape of the observed profiles is well reproduced by the simulations in the case of merging systems. In the case of cool-core clusters the slope of the observed profiles are reproduced by the simulation at radii below ~300 kpc, whereas at larger radii the observed profiles are shallower. We confirm the inhomogeneous metal distribution in the ICM found in observations. To study the robustness of our results, we investigate two different descriptions for the enrichment process interaction.

Published

2007

7. Simulations of metal enrichment in galaxy clusters by AGN outflows

Author

Moll, R., Schindler, S., Domainko, W., Kapferer, W., Mair, M., van Kampen, E., Kronberger, T., Kimeswenger, S., Ruffert, M., Moll, R., Schindler, S., Domainko, W., Kapferer, W., Mair, M., van Kampen, E., Kronberger, T., Kimeswenger, S., and Ruffert, M.

Abstract

Aims.We assess the importance of AGN outflows with respect to the metal enrichment of the intracluster medium (ICM) in galaxy clusters.

Published

2007

8. Internal kinematics of modelled interacting disc galaxies

Author

Kronberger, T., Kapferer, W., Schindler, S., Böhm, A., Kutdemir, E., Ziegler, B. L., Kronberger, T., Kapferer, W., Schindler, S., Böhm, A., Kutdemir, E., and Ziegler, B. L.

Abstract

We present an investigation of galaxy-galaxy interactions and their effects on the velocity fields of disc galaxies in combined N-body/hydrodynamic simulations, which include cooling, star formation with feedback, and galactic winds. Rotation curves (RCs) of the gas are extracted from these simulations in a way that follows the procedure applied to observations of distant, small, and faint galaxies as closely as possible. We show that galaxy-galaxy mergers and fly-bys disturb the velocity fields significantly and hence the RCs of the interacting galaxies, leading to asymmetries and distortions in the RCs. Typical features of disturbed kinematics are significantly rising or falling profiles in the direction of the companion galaxy and pronounced bumps in the RCs. In addition, tidal tails can leave strong imprints on the rotation curve. All these features are observable for intermediate redshift galaxies, on which we focus our investigations. We use a quantitative measure for the asymmetry of rotation curves to show that the appearance of these distortions strongly depends on the viewing angle. We also find in this way that the velocity fields settle back into relatively undisturbed equilibrium states after unequal mass mergers and fly-bys. About 1 Gyr after the first encounter, the RCs show no severe distortions anymore. These results are consistent with previous theoretical and observational studies. As an illustration of our results, we compare our simulated velocity fields and direct images with rotation curves from VLT/FORS spectroscopy and ACS images of a cluster at $z=0.53$and find remarkable similarities.

Published

2006

9. Dark matter density profiles: a comparison of nonextensive theory with N-body simulations

Author

Kronberger, T., Leubner, M. P., van Kampen, E., Kronberger, T., Leubner, M. P., and van Kampen, E.

Abstract

Density profiles of simulated galaxy cluster-sized dark matter haloes are analysed in the context of a recently introduced nonextensive theory of dark matter and gas density distributions. Nonextensive statistics accounts for long-range interactions in gravitationally coupled systems and is derived from the fundamental concept of entropy generalization. The simulated profiles are determined down to radii of ≈1% of R200. The general trend of the relaxed, spherically averaged profiles is accurately reproduced by the theory. For the main free parameter κ, measuring the degree of coupling within the system, and linked to physical quantities as the heat capacity and the polytropic index of the self-gravitating ensembles, we find a value of -15. The significant advantage over empirical fitting functions is provided by the physical content of the nonextensive approach.

Published

2006

10. Enrichment of the ICM of galaxy clusters due to ram-pressure stripping

Author

Domainko, W., Mair, M., Kapferer, W., van Kampen, E., Kronberger, T., Schindler, S., Kimeswenger, S., Ruffert, M., Mangete, O. E., Domainko, W., Mair, M., Kapferer, W., van Kampen, E., Kronberger, T., Schindler, S., Kimeswenger, S., Ruffert, M., and Mangete, O. E.

Abstract

We investigate the impact of galactic mass loss triggered by ram-pressure stripping of cluster galaxies on the evolution of the intra-cluster medium (ICM). We use combined N-body and hydrodynamic simulations together with a phenomenological galaxy formation model and a prescription of the effect of ram-pressure stripping on the galaxies. We analyze the effect of galaxy – ICM interaction for different model clusters with different masses and different merger histories. Our simulations show that ram-pressure stripping can account for ~10% of the overall observed level of enrichment in the ICM within a radius of 1.3 Mpc. The efficiency of metal ejection of cluster galaxies depends in the first few Gyr of the simulation mainly on the cluster mass and is significantly increased during major merger events. Additionally we show that ram-pressure stripping is most efficient in the center of the galaxy cluster and the level of enrichment drops quite fast at larger radii. We present emission-weighted metallicity maps of the ICM which can be compared with X-ray observations. The resulting distribution of metals in the ICM shows a complex pattern with stripes and plumes of metal-rich material. The metallicity maps can be used to trace the present and past interactions between the ICM and cluster galaxies.

Published

2006

11. New galactic open cluster candidates from DSS and 2MASS imagery

Author

Kronberger, M., Teutsch, P., Alessi, B., Steine, M., Ferrero, L., Graczewski, K., Juchert, M., Patchick, D., Riddle, D., Saloranta, J., Schoenball, M., Watson, C., Kronberger, M., Teutsch, P., Alessi, B., Steine, M., Ferrero, L., Graczewski, K., Juchert, M., Patchick, D., Riddle, D., Saloranta, J., Schoenball, M., and Watson, C.

Abstract

An inspection of the DSS and 2MASS images of selected Milky Way regions has led to the discovery of 66 stellar groupings whose morphologies, color–magnitude diagrams, and stellar density distributions suggest that these objects are possible open clusters that do not yet appear to be listed in any catalogue. For 24 of these groupings, which we consider to be the most likely to be candidates, we provide extensive descriptions on the basis of 2MASS photometry and their visual impression on DSS and 2MASS. Of these cluster candidates, 9 have fundamental parameters determined by fitting the color–magnitude diagrams with solar metallicity Padova isochrones. An additional 10 cluster candidates have distance moduli and reddenings derived from Kmagnitudes and $(J-K)$color indices of helium-burning red clump stars. As an addendum, we also provide a list of a number of apparently unknown galactic and extragalactic objects that were also discovered during the survey.

Published

2006

12. Simulations of galactic winds and starbursts in galaxy clusters

Author

Kapferer, W., Ferrari, C., Domainko, W., Mair, M., Kronberger, T., Schindler, S., Kimeswenger, S., van Kampen, E., Breitschwerdt, D., Ruffert, M., Kapferer, W., Ferrari, C., Domainko, W., Mair, M., Kronberger, T., Schindler, S., Kimeswenger, S., van Kampen, E., Breitschwerdt, D., and Ruffert, M.

Abstract

We present an investigation of the metal enrichment of the intra-cluster medium (ICM) by galactic winds and merger-driven starbursts. We use combined N-body/hydrodynamic simulations with a semi-numerical galaxy formation model. The mass loss by galactic winds is obtained by calculating transonic solutions of steady state outflows, driven by thermal, cosmic ray and MHD wave pressure. The inhomogeneities in the metal distribution caused by these processes are an ideal tool to reveal the dynamical state of a galaxy cluster. We present surface brightness, X-ray emission weighted temperature and metal maps of our model clusters as they would be observed by X-ray telescopes like XMM-Newton. We show that X-ray weighted metal maps distinguish between pre- or post-merger galaxy clusters by comparing the metallicity distribution with the galaxy-density distribution: pre-mergers have a metallicity gap between the subclusters, post-mergers a high metallicity between subclusters. We apply our approach to two observed galaxy clusters, Abell 3528 and Abell 3921, to show whether they are pre- or post-merging systems. The survival time of the inhomogeneities in the metallicity distribution found in our simulations is up to several Gyr. We show that galactic winds and merger-driven starbursts enrich the ICM very efficiently after $z=1$in the central (~3 Mpc radius) region of a galaxy cluster.

Published

2006

13. Internal kinematics of isolated modelled disc galaxies

Author

Kapferer, W., Kronberger, T., Schindler, S., Böhm, A., Ziegler, B. L., Kapferer, W., Kronberger, T., Schindler, S., Böhm, A., and Ziegler, B. L.

Abstract

We present a systematic investigation of rotation curves (RCs) of fully hydrodynamically simulated galaxies, including cooling, star formation with associated feedback, and galactic winds. Applying two commonly used fitting formulae to characterize the RCs, we investigated systematic effects on the shape of RCs by both the observational constraints and internal properties of the galaxies. We mainly focused on effects that occur in measurements of intermediate and high redshift galaxies. We found that RC parameters are affected by the observational setup, like slit misalignment or the spatial resolution and that they also depend on the evolution of a galaxy. Therefore, a direct comparison of quantities derived from measured RCs with predictions of semi-analytic models is difficult. The virial velocity $V_{\rm{c}}$, which is usually calculated and used by semi-analytic models, can differ significantly from fit parameters like $V_{\rm{max}}$or $V_{\rm{opt}}$inferred from RCs. We found that $V_{\rm{c}}$is usually lower than typical characteristic velocities derived from RCs. $V_{\rm{max}}$alone is in general not a robust estimator of the virial mass.

Published

2006

14. Metal enrichment processes in the intra-cluster medium

Author

Schindler, S., Kapferer, W., Domainko, W., Mair, M., van Kampen, E., Kronberger, T., Kimeswenger, S., Ruffert, M., Mangete, O., Breitschwerdt, D., Schindler, S., Kapferer, W., Domainko, W., Mair, M., van Kampen, E., Kronberger, T., Kimeswenger, S., Ruffert, M., Mangete, O., and Breitschwerdt, D.

Abstract

We present numerical simulations of galaxy clusters which include interaction processes between the galaxies and the intra-cluster gas. The considered interaction processes are galactic winds and ram-pressure stripping, which both transfer metal-enriched interstellar medium into the intra-cluster gas and hence increase its metallicity. We investigate the efficiency and time evolution of the interaction processes by simulated metallicity maps, which are directly comparable to those obtained from X-ray observations. We find that ram-pressure stripping is more efficient than quiet (i.e. non-starburst driven) galactic winds in the redshift interval between 1 and 0. The expelled metals are not mixed immediately with the intra-cluster gas, but inhomogeneities are visible in the metallicity maps. Even stripes of higher metallicity that a single galaxy has left behind can be seen. The spatial distribution of the metals transported by ram-pressure stripping and by galactic winds are very different for massive clusters: the former process yields a centrally concentrated metal distribution while the latter results in an extended metal distribution.

Published

2005

15. On the influence of ram-pressure stripping on the star formation of simulated spiral galaxies

Author

Kronberger, T., Kapferer, W., Ferrari, C., Unterguggenberger, S., and Schindler, S.

Abstract

Aims. We investigate the influence of ram-pressure stripping on the star formation and the mass distribution in simulated spiral galaxies. Special emphasis is put on the question of where the newly formed stars are located. The stripping radius from the simulation is compared to analytical estimates.Methods. Disc galaxies are modelled in combined N-body/hydrodynamic simulations (GADGET-2) with prescriptions for cooling, star formation, stellar feedback, and galactic winds. These model galaxies move through a constant density and temperature gas, which has parameters comparable to the intra-cluster medium (ICM) in the outskirts of a galaxy cluster (T = 3?keV?? 3.6?? 107?K and ??= 10-28?g/cm3). With this numerical setup we analyse the influence of ram-pressure stripping on the star formation rate of the model galaxy.Results. We find that the star formation rate is significantly enhanced by the ram-pressure effect (up to a factor of 3). Stars form in the compressed central region of the galaxy, as well as in the stripped gas behind the galaxy. Newly formed stars can be found up to hundred kpc behind the disc, forming structures with sizes of roughly 1?kpc in diameter and with masses of up to 107M?. As they do not possess a dark matter halo due to their formation history, we name them ?stripped baryonic dwarf? galaxies. We also find that the analytical estimate for the stripping radius from a Gunn & Gott (1972) criterion agrees well with the numerical value from the simulation. Like in former investigations, edge-on systems lose less gas than face-on systems, and the resulting spatial distribution of the gas and the newly formed stars is different.

Published

2008