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Stellar populations in disc galaxies from the CALIFA survey Patricia Sánchez-Blázquez (UAM) Jairo Mendez-Abreu (IAC) Sebastian F Sánchez (UNAM) Isabel.

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Presentation on theme: "Stellar populations in disc galaxies from the CALIFA survey Patricia Sánchez-Blázquez (UAM) Jairo Mendez-Abreu (IAC) Sebastian F Sánchez (UNAM) Isabel."— Presentation transcript:

1 Stellar populations in disc galaxies from the CALIFA survey Patricia Sánchez-Blázquez (UAM) Jairo Mendez-Abreu (IAC) Sebastian F Sánchez (UNAM) Isabel Perez (UGR) Fabian Rosales-Ortega (UAM) And the CALIFA collaboration

2 Resolved stellar population studies in disk galaxies Previous works Very few spectroscopic studies of stellar populations in the dis k (long slit –only inner disk -MacArthur et al. 2009, PSB et al. 2011) Yoachim et al. 2010; 2012 (Mitchell Spectrograph –VIRUS-P) Changing quickly with CALIFA: Perez et al. (2013); González Delgado et al. (2014); Cid Fernandes et al. 2014 (see highlight talk by E. Pérez & Sebastian Sánchez) There are not previous studies relating the stellar properties in the disk region with other properties of the galaxies Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014 Stellar population analysis are ideal to test models of disk formation (gives us information about the SFH, gaseous infall, feedback processes)

3 Kubryk et al. (2013) Radial migration due to bars See Friedli et al. (1998), Minchev & Famey (2010), Minchev et al. (2011, 2012); Shevchenko et al. (2011), Brunetti et al. 2011, Grand et al. (2012) In numerical simulations, stars do not remain where they were born Bars are the most efficient agents in redistributing material Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

4 Importance of studying radial migration PSB et al. 2009 Flattening of the AMR Widening of the MDF  Ongoing and upcoming surveys (SEGUE, RAVE, HERMES, APOGEE, 4MOST) designed to study the structure of the MW structure require the understanding of the dynamical processes affecting the stellar distribution PSB et al. 2009 Roškar et al. 2008b Without migration Without migration Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

5 Di Matteo et al. (2013) Observational consequences of radial migration: flattening of the metallicity gradients CR Numerical simulations predict a flattening in the stellar metallicity gradient of more than 50% in 4 Gyr Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014 see also Minchev, Chiappini & Martig (2012); Friedli 1998; Minchev & Famaey (2010); Brunetti et al. (2011)

6 Observational consequences of radial migration: flattening of the metallicity gradient Minchev, Chiappini & Martig (2012) (see also Friedli 1998; Minchev & Famaey (2010); Brunetti et al. (2011); Di Matteo et al. 2013) CR CR Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

7 600 galaxies of all types at z=0.005 to 0.03 diameter selected from SDSS to fit in the PPAK FOV (45” Mr> -23.1] Covered out to isophotal radius at 25 mag/arcsec 2 with spatial sampling of 2”~0.5-1kpc (but a dithering scheme with 3 pointing has been adopted) Spectroscopic coverage of full wavelength range from 3400 to 7400 Å Legacy survey: reduced data public once quality verified (the first DR has been in Nov. 2012 – see http://califa.caha.es/ --).http://califa.caha.es/ PI. Sebastian F. Sánchez ; project scientist: Jakob Walcher Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

8 The CALIFA Collaboration Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

9 The sample  62 face-on spiral galaxies with (34) and without bars (28) and i<60  9.6 < log (M * /M  )< 11.15 Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

10 STECKMAP (STEllar Content via Maximum A Posteriori, Ocvirk et al. 2006ab) -It is non parametric, and thus provides properties such as the stellar age distribution with minimal constraints on their shape -The ill-conditioning of the problem is taken into account through explicit regularization. galaxy fit Peak to peak variations of the inverse model matrix http://astro.u-strasbg.fr/~ocvirk/STECKMAP Stellar Population models: MILES (Vazdekis et al. 2010; PSB et al. 2006: http://miles.iac.es) Derivation of stellar population properties Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

11 Age-Z relation Stellar age distribution Steckmap outputs input data recovered Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

12 Simulations of a population with 10 Gyr and solar metallicity with a S/N=50 The age-metallicity degeneracy is highly reduced using steckmap over the classical Index-index or multi-index techniques Age-metallicity degeneracy PSB et al. (2011) Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

13 S/N~40 per Å (@ 5800Å) Mean values Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

14 MW [Z/H] 0.15 -1.05 Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014 NGC7549

15 NGC3687 LW log age MW log age

16 NGC5406 MW log age Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

17 NGC6004 LW [Z/H] MW [Z/H] Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

18 NGC2906 MW log age Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

19 Age gradients Results: Mass-weighted age gradient reflect old stellar populations at all sampled radii Lum-weighted age gradient is always negative in the disk region (although very mild) Luminosity weighted values Mass weighted values reff = 1.67835rd Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

20 Metallicity gradients Results: The LW metallicity is always larger than the MW In general, metallicities are very high in the disk region The slopes of the MW and LW metallicities are very similar Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

21 Mean gradients Means (dex/ref): -0.032±0.006 -0.087±0.008 -0.036±0.010 0.000±0.006 Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014 Note: gradients are measured on the disc region

22 S0(A), age(reff)=4.7 Gyr Evolution of gradients: comparison of gas-phase and stellar phase metallicity gradients Stellar [Z/H] (LW) Gas phase (O3N2) Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

23 Sbc(A), age(reff)=1.91 Gyr Evolution of gradients: comparison of gas-phase and stellar phase metallicity gradients Stellar [Z/H] (LW) Gas phase (O3N2) Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

24 Sbc(A), age(reff)=2.4 Gyr Evolution of gradients: comparison of gas-phase and stellar phase metallicity gradients Stellar [Z/H] (LW) Gas phase (O3N2) Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

25 Sab(B) Evolution of gradients: comparison of gas-phase and stellar phase metallicity gradients Stellar [Z/H] (LW) Gas phase (O3N2) Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

26 Relation of the metallicity gradient with other properties of the galaxies and comparison between barred and unbarred galaxies Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

27 Differences in the metallicity gradient between barred and unbarred galaxies We do not find any relation between the stellar population gradients and the mass We do not find any difference between the gradient of barred and unbarred galaxies dex/ref Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

28 Differences in the metallicity gradient between barred and unbarred galaxies We have not found any relation between the slope of the gradients and M *, σ, B/T, t- type We have not found any difference between the slope of barred and unbarred galaxies Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

29 Metallicity gradient as a function of bar properties Abraham & Merrifield (2000) Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

30 Values at 1ref vs central σ Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

31 Values at 1ref vs central σ Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

32 We are studying the stellar populations in a sample of face-on disk galaxies from the CALIFA survey. We find, in the disk region: (a)Age gradients:  mass-weighted values very flat. Old stellar populations at all radii (in the majority of galaxies).  Luminosity-weighted values decreasing slightly with radius (inside-out)  We do not find any relation between the age gradient and the mass, velocity dispersion, t-type, B/T. Summary Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

33 We are studying the stellar populations in a sample of face-on disk galaxies from the CALIFA survey. We find, in the disk region: (a)Metallicity gradients  Mild metallicity gradients (decreasing metallicity with radius)  High values of metallicity in the disk region (also seen in resolved SP studies)  Very similar slope of the MW and LW and very similar to the slope of the gas (little evolution?)  We do not find any relation between the metallicity gradient and other properties of the galaxies (similar results obtained for gas-phase metallicity) Summary Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014  The flat mass-weighted age gradient and the high metallicity values suggest an early and rapid formation of the disk (similarly to what is seen in resolved stellar population studies (e.g., Gorgarten 2010; William et al. 2009).  Alternatively, radial migration can bring old and metal rich stars from the internal parts.

34 Theoretical studies predict that bars influence enormously the evolution of the disk galaxies. We are looking for observational evidences. (a)Barred and unbarred galaxies show similar metallicity (both, stellar and gaseous) and age gradients  Bars are not important agents for stellar migration in disk galaxies?.  A possibility is that bars are not long-lived, but there are now some evidences at least in early-type galaxies bars seem to be long lived (Seth et al. 2008, PSB et al. 2011; Athanassoula et al. 2013, Kraljic et al. 2012).  We do not see the consequences because the metallicity gradient was flat in the past (however, the best observations of metallicity gradients at high redshift report steep metallicity gradients (Jones et al. 2010, 2012; Yuan et al. 2011). Most recent measurements of the MW (Maciel et al. 2013 do not find evolution) In any case, this does not mean there is no radial migration. Other mechanisms might be at work (Sellwood & Binney 2002) –-- Summary Stellar populations in disk galaxies P. Sanchez-Blazquez 3D2014

35

36 IFU vs Long-slit spectroscopy IFU data

37 Recovering the age-Z relation

38 PSB et al. (2011)

39

40 Yuan et al. (2013)

41

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