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The Evolution of Galaxy Morphologies in Clusters “ Distant Clusters of Galaxies” Ringberg, October 2005 Marc Postman with lots of help from: Marc Postman.

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Presentation on theme: "The Evolution of Galaxy Morphologies in Clusters “ Distant Clusters of Galaxies” Ringberg, October 2005 Marc Postman with lots of help from: Marc Postman."— Presentation transcript:

1 The Evolution of Galaxy Morphologies in Clusters “ Distant Clusters of Galaxies” Ringberg, October 2005 Marc Postman with lots of help from: Marc Postman with lots of help from: Frank Bartko Txitxo Benitez John Blakeslee Nick Cross Ricardo Demarco Frank Bartko Txitxo Benitez John Blakeslee Nick Cross Ricardo Demarco Holland Ford Marijn Franx Tomo Goto Brad Holden Nicole Homeier Holland Ford Marijn Franx Tomo Goto Brad Holden Nicole Homeier Garth Illingworth Simona Mei Piero Rosati & the rest of the ACS IDT Garth Illingworth Simona Mei Piero Rosati & the rest of the ACS IDT

2 Understanding the Origin of Morphological Differences in Galaxies Is the morphology - density relation a fundamental relationship or is it a consequence of some other underlying correlation (e.g., galaxy mass - density relationship)? When does the MDR get established?Is the morphology - density relation a fundamental relationship or is it a consequence of some other underlying correlation (e.g., galaxy mass - density relationship)? When does the MDR get established? How do the morph. populations of galaxies in clusters and the field vary with redshift? Does the MDR evolve?How do the morph. populations of galaxies in clusters and the field vary with redshift? Does the MDR evolve? –The evolution in morphological composition as functions of radius, density, SFR, galaxy mass are powerful constraints on galaxy formation models. Only HST has the angular resolution to study this evolution. What are the progenitors of current epoch S0 galaxies? Do mergers play an important role in morphological transformation of cluster galaxy populations?What are the progenitors of current epoch S0 galaxies? Do mergers play an important role in morphological transformation of cluster galaxy populations? Is the morphological population set mostly by environmental processes or initial conditions? Is the answer to this question dependent on galaxy mass?Is the morphological population set mostly by environmental processes or initial conditions? Is the answer to this question dependent on galaxy mass?

3 –Data suggested there is detectable evolution in the morphological composition of clusters over the past ~5 Gyrs: z~0.5 to the present epoch (Dressler et al 1997; Fasano et al. 2000; Treu et al. 2003). Goto et al 2003 What we knew prior to ACS on HST:What we knew prior to ACS on HST: –The relative fraction of galaxy morphologies depends on density (Dressler 1980, Postman & Geller 1984) and/or on clustocentric radius (Whitmore & Gilmore 1993) –Physical processes exist that can alter galaxy morphology on timescales much less than the current age of the universe: ram pressure, tidal disruption, mergers Understanding the Origin of Morphological Differences in Galaxies Quilis, Moore, & Bower 2000: Ram pressure induced gas stripping; Timescale ~100 Myr Poggianti 2000

4 Images of different morph types z =0.83 20 kpc E Ellipticals Lenticulars (S0) Spirals + Irreg z =0.84 z =0.90 z =0.92 z =1.10 z =1.24 z =1.27

5 MDR & MRR Results Morphology - Density Relation Morphology - Radius Relation PG84 z~0 E+S0 Fraction D80/D97 z~0 E+S0 P2005 ACS z~1 E+S0 Smith et al2005 z~1 E+S0 P2005 ACS z ~ 1 Ellipticals PG84 z ~ 0 Ellipticals D80/D97 z ~ 0 Ellipticals P2005 ACS z ~ 1 S0 Fraction PG84 z ~ 0 S0 Fraction D80/D97 z ~ 0 S0 Fraction P2005 ACS z~1 E+S0 Fraction WG91 z ~ 0 E+S0 Fraction P2005 ACS z~1 Ellipticals WG91 z ~ 0 Ellipticals P2005 ACS z~1 S0 Fraction WG91 z ~ 0 S0 Fraction R/R200 Projected Density

6 Evolution in MDR The increase in the early-type fraction with increasing density is less rapid at z~1 than at z~0. Consistent with environmentally driven transformation of late --> early types. S0 fraction at z~1 is <50% of its z~0 value but consistent with its z~0.5 value (e.g., Dressler et al. 1997; Fasano et al. 2000; Treu et al. 2003) No significant evolution seen in elliptical population fraction - density relation. Does not imply cosmic E pop doesn’t increase with time, however. No significant evolution seen at low-density (Smith et al. 2005; Mobasher et al. 2006) But pop fractions may be correlated with L X Postman et al. 2005 Smith et al. 2005

7 CL1604+4321 CL1604+4304 RXJ0910+54 RXJ0848+44 RXJ1252-29 MS1054-0321 RXJ0152-1357 f E+S0  L X (0.33 +/- 0.09) f E  L X (0.15 +/- 0.09) f S0  L X (0.18 +/- 0.09) RXJ0152-1357 CL1604+4304 RXJ0848+44 RXJ0910+54 RXJ1252-29 MS1054-0321 CL1604+4304 RXJ1252-29 RXJ0152-1357 MS1054-0321 CL1604+4321 Galaxy Population vs. Cluster Properties

8 T - ∑ Relation vs. Galaxy Mass HOLDEN ET AL. 2005, IN PREP. 10.5 < Log(M) < 10.85Log(M) > 10.85 MS1054 + RXJ0152 z=0.83

9 z ~ 1 Cluster Disk Galaxy Sample Spectroscopically confirmed members with types Sa or later

10 z~1 Cluster Disk & SF Galaxy Properties Homeier et al. 2005, Demarco et al. 2005, Homeier et al. 2005, in press. CGE = 10xlog (r red /r blue ) Cluster spirals are significantly redder their field counterpartsCluster spirals are significantly redder their field counterparts But, their quantitative morphologies (C,A,S) are indistinguishableBut, their quantitative morphologies (C,A,S) are indistinguishable Sizes (R 1/2 or disk scale height) of cluster and field galaxies are similarSizes (R 1/2 or disk scale height) of cluster and field galaxies are similar Blue cluster disk galaxies show evidence (97% C.L.) for enhanced central star formation.Blue cluster disk galaxies show evidence (97% C.L.) for enhanced central star formation. Star forming cluster galaxies avoid densest regions. Most (~80%) are “normal” spirals. (a la Gisler 1978; Lewis et al. 2002; Gómez et al. 2003)Star forming cluster galaxies avoid densest regions. Most (~80%) are “normal” spirals. (a la Gisler 1978; Lewis et al. 2002; Gómez et al. 2003) Cluster Field AGN

11 Can we make a Coma S0 from a single z = 0.83 cluster spiral? Holden et al. 2005, in prep. z=0.83 E+S0 z=0.83 Spirals

12 Close Pair Candidates CL0152 MS1054

13 MS1054: Tran et al. 2005

14 Red Pair Excess 2.81 2.84 3.29 1.01 Jitter (  = 50 kpc) 4.45 Bartko et al. 2006

15 Red Pair Excess Jitter (  = 50 kpc) Bartko et al. 2006

16 Low-z clusters MS1358 (z=0.33)CL0016 (z=0.54)

17 Bartko et al. 2006, in prep MS1054 & CL0152 have comparable merger fractions.MS1054 & CL0152 have comparable merger fractions. Excess of red galaxy pairs appears to be a common (but not a universal) phenomenon associated with very dense environments at z ~ 1. It is not seen at lower z nor in less massive (<5 x 10 14 solar masses) hi-z clusters. Caveat: small sample!Excess of red galaxy pairs appears to be a common (but not a universal) phenomenon associated with very dense environments at z ~ 1. It is not seen at lower z nor in less massive (<5 x 10 14 solar masses) hi-z clusters. Caveat: small sample! Early type mergers confined to central regions. Late type merger fraction not strongly dependent on radius once beyond central 500 kpc or so.Early type mergers confined to central regions. Late type merger fraction not strongly dependent on radius once beyond central 500 kpc or so.

18 Brightest Cluster Galaxies CL0152-13 MS1054 CL1604+4304 CL1604+4321 CL0910+54 CL1252-29 Elliptical Elliptical Sb/Sc S0/a S0/a Elliptical

19 BCG Luminosity Evolution Postman et al. 2006, in prep. z ~ 1 BCG exhibit a broader morphological distribution than their z=0 counterparts M 2 - M 1 in all but one of these z~1 clusters is smaller (<0.13 mag) than that in ~90% of the z~0 rich Abell clusters [Exception is MS1054 which has 0.36 mag contrast] We expect some of these BCGs to undergo a doubling in mass by z~0.5 (e.g., RDCS1252-2927)

20 Implications for the Evolution of Cluster Galaxy Morphologies MDR is a fundamental relationship, not a simply consequence of mass- density relationship. But the formation of the most massive galaxies may be determined by either initial or large scale conditions.MDR is a fundamental relationship, not a simply consequence of mass- density relationship. But the formation of the most massive galaxies may be determined by either initial or large scale conditions. E and S0 populations likely have different formation histories. Up to 50% of S0’s in high density regions could be in place by z~1. Work done at z ~ 0.5, shows a similar deficit of S0 galaxies (e.g., Dressler et al. 1997; Fasano et al. 2000). We are witnessing the “recent” build up of about half the cluster S0 population via the transformation of in-falling spiral galaxies.E and S0 populations likely have different formation histories. Up to 50% of S0’s in high density regions could be in place by z~1. Work done at z ~ 0.5, shows a similar deficit of S0 galaxies (e.g., Dressler et al. 1997; Fasano et al. 2000). We are witnessing the “recent” build up of about half the cluster S0 population via the transformation of in-falling spiral galaxies. z ~ 1 Cluster spirals are not a “pristine” population - i.e., they already exhibit evidence for environmentally induced alteration of their stellar populations (relative to field galaxies at similar redshifts).z ~ 1 Cluster spirals are not a “pristine” population - i.e., they already exhibit evidence for environmentally induced alteration of their stellar populations (relative to field galaxies at similar redshifts). However, a typical z=0 S0 is twice as massive as a typical z=1 cluster spiral. And z~1 BCGs show much more morphological variation than those at z=0. Many cannot simply be passively evolved to match current epoch BCG luminosities. Merging is likely an important process.However, a typical z=0 S0 is twice as massive as a typical z=1 cluster spiral. And z~1 BCGs show much more morphological variation than those at z=0. Many cannot simply be passively evolved to match current epoch BCG luminosities. Merging is likely an important process.

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