The case of the Hydra I cluster core: kinematics and stellar … · The case of the Hydra I cluster...

The case of the Hydra I cluster core: kinematics and stellar populations Carlos Eduardo Barbosa 1,2 , Michael Hilker 1 , Magda Arnaboldi 1 , Lodovico Coccato 1 , Cl´ audia Mendes de Oliveira 2 , Tom Richtler 3 1 ESO, 2 IAG-USP, 3 Universidad de Concepcion Abstract Halos of elliptical galaxies grow about four times since z=2, but there is no consensus of the main mechanisms responsible to expand these objects. Here we present the case of the core of the Hydra I, a local universe galaxy cluster with a cD galaxy NGC 3311. Using a novel set of observations from FORS2 at VLT, we present detailed maps of kinematics and stellar population of the central galaxy that confirms the unusual steep rise in the velocity dispersion, and the old and metal rich nature of NGC 3311, which appears to be formed in a two-phase process. Kinematics I Data from FORS2@VLT with MXU mask technique. Slits are placed in an onion shell-like pattern around NGC 3311. I The core of the Hydra I cluster presents a steep rise in the velocity dispersion, from σ ∼ 180 km/s in the central region to σ ∼ 450 km/s at R ∼ 20 kpc (around 2.5R e ). I The presence of a high velocity dispersion region in the NE region of the velocity dispersion image occurs at the same location of the photometric offset envelope seen in Arnaboldi et al. (2012) and of a dwarf galaxy being disrupted as it falls into the cluster core. I Dispersion velocity profiles from (Ventimiglia et al., 2010) and Richtler et al. (2011) have shown differences of ∼ 100 km/s in the outern region of NGC 3311. I The azimuthal variation of the velocity dispersion profiles from our dataset explains naturally the differences between these previous measurements. Stellar population I We measured the Lick indices for the absorption line spectra. I We model these indices using the single stellar population models of Thomas, Maraston, & Johansson (2011). I Our preliminary results indicate that the core of the Hydra I cluster has a old stellar population (Age& 10 Gyr) and rich in α-elements ([α/Fe] > [α/Fe] ). Moreover, the central region of NGC 3311 is metal rich (Z & 1.5Z ). I While age and [α/Fe] are relatively flat in the surveyed region, a metallicity gradient of Δ[Fe/H]/Δ log r ∼-0.3 for R < 2R e is cleary distinguible. Conclusion I Our novel measurements on the kinematics of NGC 3311 has reconciled different results in the literature showing that the velocity dispersion profile of NGC 3311 varies at different position angles. I These results point to the formation of NGC 3311 in a two-phase process – rapid assembly and dissipative collapse of gas at high redshift (z & 2), for the high central surface brightness region, and later accretion that lead to the fomation of the outer halo. I We plan to extend this analysis further in order to study the nature of the intracluster light, and devise a complete evolutionary scenario for the formation of the central region of the cluster. Acknowledgments CEB and CMdO gratefully acknowledge FAPESP for financial support on grant 2012/22676-3. TR acknowledges support through FONDECYT project Nr. 1100620. Based on observations made with ESO Telescopes at the La Silla Paranal Observatory under programme ID 088.B-0448(B). References Arnaboldi M., Ventimiglia G., Iodice E., Gerhard O., Coccato L., 2012, A&A, 545, A37 Loubser S. I., Sansom A. E., S´ anchez-Bl´ azquez P., Soechting I. K., Bromage G. E., 2008, MNRAS, 391, 1009 Richtler T., Salinas R., Misgeld I., Hilker M., Hau G. K. T., Romanowsky A. J., Schuberth Y., Spolaor M., 2011, A&A, 531, A119 Thomas D., Maraston C., Johansson J., 2011, MNRAS, 412, 2183 Ventimiglia G., Gerhard O., Arnaboldi M., Coccato L., 2010, A&A, 520, L9 www.astro.iag.usp.br/∼cebarbosa [email protected]

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Transcript of The case of the Hydra I cluster core: kinematics and stellar … · The case of the Hydra I cluster...

The case of the Hydra I cluster core: kinematicsand stellar populations

Carlos Eduardo Barbosa1,2, Michael Hilker1, Magda Arnaboldi1,Lodovico Coccato1, Claudia Mendes de Oliveira2, Tom Richtler3

1ESO, 2IAG-USP, 3Universidad de Concepcion

Abstract

Halos of elliptical galaxies grow about four times since z=2, but there is noconsensus of the main mechanisms responsible to expand these objects. Herewe present the case of the core of the Hydra I, a local universe galaxy clusterwith a cD galaxy NGC 3311. Using a novel set of observations from FORS2at VLT, we present detailed maps of kinematics and stellar population of thecentral galaxy that confirms the unusual steep rise in the velocity dispersion, andthe old and metal rich nature of NGC 3311, which appears to be formed in atwo-phase process.

Kinematics

I Data from FORS2@VLT with MXU mask technique. Slits are placed in anonion shell-like pattern around NGC 3311.

I The core of the Hydra I cluster presents a steep rise in the velocitydispersion, from σ ∼ 180 km/s in the central region to σ ∼ 450 km/sat R ∼ 20 kpc (around 2.5Re).

I The presence of a high velocity dispersion region in the NE region of thevelocity dispersion image occurs at the same location of the photometricoffset envelope seen in Arnaboldi et al. (2012) and of a dwarf galaxy beingdisrupted as it falls into the cluster core.

I Dispersion velocity profiles from (Ventimiglia et al., 2010) and Richtler etal. (2011) have shown differences of ∼ 100 km/s in the outern region ofNGC 3311.

I The azimuthal variation of the velocity dispersion profiles fromour dataset explains naturally the differences between theseprevious measurements.

Stellar population

I We measured the Lick indices for the absorption line spectra.

I We model these indices using the single stellar population models ofThomas, Maraston, & Johansson (2011).

I Our preliminary results indicate that the core of the Hydra I cluster has aold stellar population (Age& 10 Gyr) and rich in α-elements([α/Fe] > [α/Fe]�). Moreover, the central region of NGC 3311 ismetal rich (Z & 1.5Z�).

I While age and [α/Fe] are relatively flat in the surveyed region, ametallicity gradient of ∆[Fe/H]/∆ log r ∼ −0.3 for R < 2Re iscleary distinguible.

Conclusion

I Our novel measurements on the kinematics of NGC 3311 has reconcileddifferent results in the literature showing that the velocity dispersion profileof NGC 3311 varies at different position angles.

I These results point to the formation of NGC 3311 in a two-phase process –rapid assembly and dissipative collapse of gas at high redshift (z & 2), forthe high central surface brightness region, and later accretion that lead tothe fomation of the outer halo.

I We plan to extend this analysis further in order to study the nature of theintracluster light, and devise a complete evolutionary scenario for theformation of the central region of the cluster.

Acknowledgments

CEB and CMdO gratefully acknowledge FAPESP for financial support ongrant 2012/22676-3. TR acknowledges support through FONDECYTproject Nr. 1100620. Based on observations made with ESO Telescopes atthe La Silla Paranal Observatory under programme ID 088.B-0448(B).

References

Arnaboldi M., Ventimiglia G., Iodice E., Gerhard O., Coccato L., 2012, A&A, 545, A37

Loubser S. I., Sansom A. E., Sanchez-Blazquez P., Soechting I. K., Bromage G. E., 2008, MNRAS, 391, 1009

Richtler T., Salinas R., Misgeld I., Hilker M., Hau G. K. T., Romanowsky A. J., Schuberth Y., Spolaor M., 2011, A&A, 531, A119

Thomas D., Maraston C., Johansson J., 2011, MNRAS, 412, 2183

Ventimiglia G., Gerhard O., Arnaboldi M., Coccato L., 2010, A&A, 520, L9

www.astro.iag.usp.br/∼cebarbosa [email protected]