Evolution of galaxy clustering in the ALHAMBRA Survey

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Evolution of galaxy clustering in the ALHAMBRA Survey Pablo Arnalte-Mur (Observatori Astronòmic - Univ. de València) with L. Hurtado-Gil (OAUV/IFCA), V.J. Martínez (OAUV), A. Fernández-Soto (IFCA) & The ALHAMBRA Team Meeting on Fundamental Cosmology Santander, 18/06/2015 Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 1 / 13

Outline 1 The ALHAMBRA Survey 2 Galaxy segregation by luminosity and spectral type 3 Galaxy clustering at the smallest scales Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 2 / 13

ALHAMBRA Advanced, Large Homogeneous Area, Medium-Band, Redshift Astronomical survey A pencil-beam, multi-band photometric survey with the aim of providing a cosmic tomography to study cosmic evolution Exploit photo-z techniques at maximum Precursor and ideal testbench for J-PAS and PAU@WHT Total effective area: 2.4deg 2, distributed in 7 separate fields 0.8 0.7 0.6 20 optical filters + JHK s Catalogue (I -band selected): Molino et al. (2014) Photo-z: σz 0.014(1 + z) (to I < 24.5) zmed = 0.75 0 Transmission 0.5 0.4 0.3 0.2 0.1 u g r 3000 4000 5000 6000 7000 8000 9000 10000 Wavelength (Angstroms) i z Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 3 / 13

ALHAMBRA Depth, photo-z quality: ideal dataset for study of clustering at scales 10h 1 Mpc and its evolution in z [0.3 1.2] 1.3 ALHAMBRA Field 2 z [0.6,0.8] 1.2 We estimate clustering using the projected correlation function w p (r p ) (adapted for the photo-z data) Declination (deg) 1.1 1.0 0.9 0.8 0.7 Late type galaxies Early type galaxies 10 h 1 Mpc @ z =0.7 0.6 0.5 36.8 37.0 37.2 37.4 37.6 Right Ascension (deg) Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 4 / 13

Evolution of clustering and segregation by luminosity Arnalte-Mur et al. (2014) MNRAS 441-1783 ALHAMBRA catalogue to I AB < 24 Select samples by B-band absolute magnitude and redshift 1 2 mags deeper than spectroscopic surveys Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 5 / 13

Evolution of clustering and segregation by luminosity Arnalte-Mur et al. (2014) MNRAS 441-1783 Projected correlation function w p (r p ) measured at r p [0.3,15]h 1 Mpc 1000 z = 0.5 z = 0.7 Clear segregation by luminosity No change of slope w w p (h -1 p (h -1 Mpc) Mpc) 100 10 1 1000 100 10 M B (z=0) < -16.8 M B (z=0) < -17.6 M B (z=0) < -18.6 M B (z=0) < -19.6 M B (z=0) < -20.6 z = 0.9 M B (z=0) < -17.6 M B (z=0) < -18.6 M B (z=0) < -19.6 M B (z=0) < -20.6 z = 1.1 1 M B (z=0) < -18.1 M B (z=0) < -18.6 M B (z=0) < -19.6 M B (z=0) < -20.6 M B (z=0) < -18.6 M B (z=0) < -19.6 M B (z=0) < -20.6 0.1 1 10 r p (h -1 Mpc) 0.1 1 10 r p (h -1 Mpc) Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 6 / 13

Evolution of clustering and segregation by luminosity Arnalte-Mur et al. (2014) MNRAS 441-1783 Quantify luminosity segregation: galaxy bias (r p [1 10]h 1 Mpc 2-halo term) Broad agreement with previous works (VIPERS, CFHTLS-Wide, PRIMUS), and extending to fainter luminosities Steeper luminosity dependence than low z (and previous works) Can broadly identify host haloes L galaxies reside in haloes with M h 10 12.2 h 1 M Bias 3 2.5 2 1.5 1 z = 0.5 z = 0.7 z = 0.9 0.5 0.1 1 L med /L (z) Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 7 / 13

Evolution of segregation by spectral type Hurtado-Gil et al. (2015, in prep.) At fixed luminosity, select galaxies by spectral type Selection from best-fit template in photo-z estimation (BPZ) Similar to selection by broad-band colour Passive/early-type galaxies are more clustered than active/late-type at all z Changes in both amplitude and slope Much faster clustering evolution for early-type w p (h -1 Mpc) w p (h -1 Mpc) 1000 100 10 1 1000 100 10 1 Early type Late type Full population Early Late Full population z = 0.49 z = 0.90 0.1 1 10 r p (h -1 Mpc) Early Late Full population Early Late Full population z = 0.70 z = 1.10 0.1 1 10 r p (h -1 Mpc) Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 8 / 13

Clustering at the smallest scales: the 1-halo term ALHAMBRA ideal to study clustering at the smallest scales Depth number density Have pseudo-spectrum for every object in the sky: no fiber collisions, undersampling Small scale limit set by seeing: FWHM = 1.1 r p 10 20h 1 kpc Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 9 / 13

Clustering at the smallest scales: the 1-halo term Why are small scales r 0.01 1h 1 Mpc interesting? Probes clustering inside haloes: can use HOD models to study how host haloes are populated by galaxies Do satellite galaxies follow dark matter density profiles (NFW)? Watson et al. (2010, 2012) found steeper profiles at r p 50h 1 kpc for brightest samples in SDSS ( most massive haloes) Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 10 / 13

Clustering at the smallest scales: the 1-halo term Preliminary results Fit standard 3-parameter HOD model (with NFW profile) to our w p (r p ) measurements Excellent agreement overall Possible hint of steeper inner profile at low z, high luminosity Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 11 / 13

Clustering at the smallest scales: the 1-halo term Preliminary results We can constraint physical properties of the galaxy/halo relation from our HOD fits Strong evolution of the mean mass of host haloes No significant evolution of the fraction of satellite galaxies Mh 3.5 1e13 3.0 2.5 2.0 1.5 1.0 0.5 0.0 z = 0.5 z = 0.7 z = 0.9 Mean halo mass 10-1 10 0 L th /L f s 0.24 0.22 0.20 0.18 0.16 0.14 0.12 0.10 0.08 0.06 z = 0.5 z = 0.7 z = 0.9 Satellite fraction 10-1 10 0 L th /L Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 12 / 13

Conclusions Can obtain reliable clustering measurements for r p [0.02,15]h 1 Mpc in ALHAMBRA good prospects for upcoming cosmological multi-band surveys (J-PAS, PAU@WHT) Can constraint galaxy segregation by luminosity and spectral type up to z 1, competitive with spectroscopic surveys Standard HOD model + NFW profile in excellent agreement with data Possible excess at low z, high luminosity Other LSS-related ALHAMBRA work: Catalogue of groups and clusters: Ascaso et al. [arxiv:1506:03823] Galaxy bias from cosmic variance: López-Sanjuan et al. (submitted) More information and public data: http://www.alhambrasurvey.com Pablo Arnalte-Mur (OAUV - València) Clustering in ALHAMBRA MFC-Santander, 18/06/2015 13 / 13

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