Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Evolution of Groups and Clusters " Richard Bower, ICC, Durham " With thanks to the collaborators that have shaped my views Mike Balogh, Dave Wilman,

Published byMyrtle Norman Modified over 8 years ago

Similar presentations

Presentation on theme: "The Evolution of Groups and Clusters " Richard Bower, ICC, Durham " With thanks to the collaborators that have shaped my views Mike Balogh, Dave Wilman,"— Presentation transcript:

1 The Evolution of Groups and Clusters " Richard Bower, ICC, Durham " With thanks to the collaborators that have shaped my views Mike Balogh, Dave Wilman, Taddy Kodama, Ivan Baldry, Bob Nichol, John Mulchaey, Gus Oemler " And people that gave me viewfoils Mike Balogh, Roger Davies, Eric Bell

2 Outline  Focus on clusters and the star formation history of their galaxies…  Clusters and Groups in the local universe  The evidence for old stellar populations  Bright vs faint galaxies  Clusters in the distant universe  Evolution in stellar populations and star formation rates  Comparison with field galaxy evolution  Evolution of the stellar mass function  Other environments in the past  The properties of galaxies in distant groups  Can we understand what we see?

3 The Spirit of this Talk  The interaction of galaxies with their environment is complicated  The growth of the universe if complicated  Star formation is complicated  …our job is comprehend the elegant simplicity of the universe…

4 The Present-Day Universe Uniform populations vs niggley details!

5 Clusters Today  The evidence for uniform old stellar populations  The colour magnitude relation  Small scatter (between clusters and within)  Interesting aside: is the CMR really flat? (Bernardi et al)  The fundamental Plane -> galaxy M/L (ciotti & Renzini 1993)  Line Indices -> direct measure of age and metals Lopez-Cruz et al 2004

6 Clusters Today  The evidence for old stellar populations  The colour magnitude relation  The fundamental Plane -> galaxy M/L  Line Indices -> direct measure of age and metals  Bright ellipticals form a tight metalicity sequence  Greater diversity in the faint and S0 galaxy population Fornax: Kuntschner & Davies 1998

7 Clusters Today  The evidence for old stellar populations  Line Indices -> direct measure of age and metals  Bright ellipticals form a tight metalicity sequence  Greater diversity in the faint galaxy population  Greater diversity when you examine each galaxy in detail (eg Kuntschner’s talk – 50% show some sign of intermediate age star formation) Coma: Poggianti et al 2003

8 Different Environments - Today  groups (Balogh's talk): in lower density environments  Fraction of star forming galaxies suppressed in dense environments – but it’s a continuous trend  Local density is more important than halo mass  Luminosity is more important than environment  isolated galaxies  Even isolated regions contain “passive” galaxies Balogh et al. 2004

9 Evolution – What were these environments like in the past? Passive evolution vs niggley details?

10 Clusters in the past  Compare and contrast:  the Butcher-Oemler effect  versus  CMR evolution  FP evolution  “star forming” fraction Butcher & Oemler, 1984

11 Clusters in the past  Compare and contrast:  the Butcher-Oemler effect  versus  CMR evolution  FP evolution  “star forming” fraction (Ellis et al; Kodama et al; Gladders et al)

12 Clusters in the past  Compare and contrast:  the Butcher-Oemler effect  versus  CMR evolution  FP evolution  “star forming” fraction  Take care!  “progenitor bias” (van Dokkum et al; Jorgensen et al)

13 Clusters in the past  Compare and contrast:  the Butcher-Oemler effect  versus  CMR evolution  FP evolution  “star forming” fraction (Nakata et al 2004)

14 Star formation history vs stellar mass assembly " In cluster cores, both star formation and mass assembly seem to have happened a long time ago. Toft et al 2004

15 Bright vs Faint galaxies  the cosmic down sizing hypothesis  the build-up of the CMR  Care is needed! De Lucia et al 2004; Kodama et al, 2004

16 Other Environments in the Past

17 Other environments in the past (Hopkins et al 2004; Bell 2004)  the field  The cosmic star formation rate  Rapid increase over z=0 to 1  abundance of stars  Modest decrease – little evolution in the mass fn.  But …even in the field, many “passive” galaxies exist at z=1  groups vs field

18 Other environments in the past  the field  The cosmic star formation rate  Rapid increase over z=0 to 1  abundance of stars  Modest decrease – little evolution in the mass fn.  But …even in the field, many “passive” galaxies exit at z=1  groups vs field (Galzebrook et al, 2004; Bell 2004)

19 M V < -20 High density Low density All galaxies Redshift Red galaxy fraction Other environments in the past (Bell et al 2004)  the field  The cosmic star formation rate  Rapid increase over z=0 to 1  abundance of stars  Modest decrease – little evolution in the mass fn.  But …even in the field, many “passive” galaxies exit at z=1  groups vs field

20 Groups at z=0.4  follow-up observations with Magellan to gain higher completeness and depth  Aim of comparing star formation rates in groups at z~0.4 and locally  Also infrared data from WHT; HST ACS imaging being analysed now. • “LDSS-2 Distant Group Survey”: Based on the CNOC2 redshift survey aimed at z~0.5. Group selection and inital look at properties described in Carlberg et al. (2001)

21 Groups at z=0.4  20% success rate in targeted groups  295 group members in 26 groups  Typical group has 10 members.

22 Groups at z~0.4 Wilman et al 2004 Fraction of passive galaxies inter- mediate redshift Low redshift Evidence for evolution in galaxy groups. Groups were a much more active environment in the past – but is this because: groups are more recently assembled? the galaxies forming the groups are more active? Comparison with star forming fraction in the 2df-GRS

23 So what does it all mean? To make sense of it all we need to know how to connect together different environments over a range of redshift

24 The Growth of Clusters  cluster formation history  comparing local/past clusters  Most massive progenitor?  Mass distribution of progenitors?  Are clusters built from the infall of groups?  What else do we want to know? z=0.5 z=1 z=2

25 The Growth of Clusters  cluster formation history  comparing local/past clusters  Most massive progenitor?  Mass distribution of progenitors?  Are clusters built from the infall of groups?  What else do we want to know? z=.1 z=.4 From z=0.1 to 0, average cluster accretes 10%, of its mass: 40% is “groups” 20% is “galaxies” “galaxies” “groups” “clusters”

26 Summary: some things we’ve learned In Clusters Uniform populations indicate old ages  …but not in faint galaxies or if you look in detail At higher redshift Evolution of the CMR and FP suggests high formation redshifts Mass function is non-evolving too  …but  the blue fractions evolve in clusters (but not the star forming fraction)  You can see the build up of the CMR (cosmic “downsizing”) In groups and the field A continuous transition in the fraction of passive galaxies Even isolated galaxies can be “red and dead”, particularly if bright  …transformation is not a cluster specific phenomenon  …it must act quickly At higher redshift Star forming/red galaxies are a smaller fraction of the population This holds for groups, not just “field” galaxies  …the evolution is not just a result of the lower abundance of groups

27 Galaxy Transformation  do we need transformation?  ("nature" vs "nurture")  internally or externally driven?  gas consumption vs stripping/triggering  Mechanisms - which ones are still viable?  Ram pressure  Strangulation  Gravitational interactions

28 Star formation history is not morphology!  star formation rate and morphology are not the same thing!  does morphological transformation take longer?  Is it the same mechanism?

29 E+A galaxies  an important clue?  Evidence that galaxies are transformed  Gives us chance to identify the mechanism

30 SLOAN image Combined specrum strong A-star features weak OII Next Steps – Sneak Preview...

31 Red continuum OII H?H? Narrow-band Images Constructed from GMOS data cube \Maps old stars Maps continuing star formation Maps 1 Gyr old stellar population

32 H?H? Narrow-band Images \Maps old stars Maps continuing star formation OII velocity OII equivalent width A-star population has no discernable velocity structure, but OII has 100 km/s (p-p) rotation about minor axis

33 The Star formation history of the universe " what is the impact of the growth of large scale structure? Redshift 0 0.30.5 5 10 Star Formation Rate (OII eqiuv. Width) 15 20 1.0 Total Star Formation rate Cluster Galaxies Group Galaxies

34 Colour-magnitude relation Baldry et al. 2003 (see also Hogg et al. 2003) Corrected for volume

35 Morphologies at z~0.75 split by environment from GEMS Low-density environment High-density environment Spheroid-dominatedDisk-dominated 30% of early-types blue 50% of early-types blue  Consistent with later addition of early-type population in lower density environments…

Download ppt "The Evolution of Groups and Clusters " Richard Bower, ICC, Durham " With thanks to the collaborators that have shaped my views Mike Balogh, Dave Wilman,"

Similar presentations

Star formation histories and environment Bianca M. Poggianti INAF – Osservatorio Astronomico di Padova WE ARE ALL AFTER THE BIG PICTURE: 1)To what extent,

Star formation histories and environment Bianca M. Poggianti INAF – Osservatorio Astronomico di Padova WE ARE ALL AFTER THE BIG PICTURE: 1)To what extent,
Galaxy groups Michael Balogh Department of Physics and Astronomy University of Waterloo.

Galaxy groups Michael Balogh Department of Physics and Astronomy University of Waterloo.
Malaysia 2009 Sugata Kaviraj Oxford/UCL Collaborators: Sukyoung Yi, Kevin Schawinski, Eric Gawiser, Pieter van Dokkum, Richard Ellis Malaysia 2009 Early-type.

Malaysia 2009 Sugata Kaviraj Oxford/UCL Collaborators: Sukyoung Yi, Kevin Schawinski, Eric Gawiser, Pieter van Dokkum, Richard Ellis Malaysia 2009 Early-type.
Panoramic View of Cluster Evolution Distant Clusters of Galaxies (Ringberg, 24 Oct 2005) Taddy Kodama (NAOJ), Masayuki Tanaka (Univ. of Tokyo), PISCES.

Panoramic View of Cluster Evolution Distant Clusters of Galaxies (Ringberg, 24 Oct 2005) Taddy Kodama (NAOJ), Masayuki Tanaka (Univ. of Tokyo), PISCES.
Formation of Globular Clusters in  CDM Cosmology Oleg Gnedin (University of Michigan)

Formation of Globular Clusters in  CDM Cosmology Oleg Gnedin (University of Michigan)
Galaxy Groups Michael Balogh University of Durham.

Galaxy Groups Michael Balogh University of Durham.
Kevin Bundy, Caltech The Mass Assembly History of Field Galaxies: Detection of an Evolving Mass Limit for Star-Forming Galaxies Kevin Bundy R. S. Ellis,

Kevin Bundy, Caltech The Mass Assembly History of Field Galaxies: Detection of an Evolving Mass Limit for Star-Forming Galaxies Kevin Bundy R. S. Ellis,
Life Before the Fall: Group Galaxy Evolution Prior to Cluster Assembly Anthony Gonzalez (Florida) Kim-Vy Tran (CfA) Michelle Conbere (Florida) Dennis Zaritsky.

Life Before the Fall: Group Galaxy Evolution Prior to Cluster Assembly Anthony Gonzalez (Florida) Kim-Vy Tran (CfA) Michelle Conbere (Florida) Dennis Zaritsky.
Gabriella De Lucia, November 1,Tucson MPA The emergence of the red-sequence Gabriella De Lucia Max-Planck Institut für Astrophysik A Workshop on Massive.

Gabriella De Lucia, November 1,Tucson MPA The emergence of the red-sequence Gabriella De Lucia Max-Planck Institut für Astrophysik A Workshop on Massive.
The HI gas content of galaxies around Abell 370, a galaxy cluster at z = 0.37 International SKA Forum 2010 Philip Lah A New Golden Age for Radio Astronomy.

The HI gas content of galaxies around Abell 370, a galaxy cluster at z = 0.37 International SKA Forum 2010 Philip Lah A New Golden Age for Radio Astronomy.
The two phases of massive galaxy formation Thorsten Naab MPA, Garching UCSC, August, 2010.

The two phases of massive galaxy formation Thorsten Naab MPA, Garching UCSC, August, 2010.
Exploring the Stellar Populations of Early-Type Galaxies in the 6dF Galaxy Survey Philip Lah Honours Student h Supervisors: Matthew Colless Heath Jones.

Exploring the Stellar Populations of Early-Type Galaxies in the 6dF Galaxy Survey Philip Lah Honours Student h Supervisors: Matthew Colless Heath Jones.
Massive galaxies in massive datasets M. Bernardi, J. Hyde and E. Tundo M. Bernardi, J. Hyde and E. Tundo University of Pennsylvania.

Massive galaxies in massive datasets M. Bernardi, J. Hyde and E. Tundo M. Bernardi, J. Hyde and E. Tundo University of Pennsylvania.
Exploring the Stellar Populations of Early-Type Galaxies in the 6dF Galaxy Survey Philip Lah Honours Student h Supervisors: Matthew Colless Heath Jones.

Exploring the Stellar Populations of Early-Type Galaxies in the 6dF Galaxy Survey Philip Lah Honours Student h Supervisors: Matthew Colless Heath Jones.
C. Halliday, A. Cimatti, J. Kurk, M. Bolzonella, E. Daddi, M. Mignoli, P. Cassata, M. Dickinson, A. Franceschini, B. Lanzoni, C. Mancini, L. Pozzetti,

C. Halliday, A. Cimatti, J. Kurk, M. Bolzonella, E. Daddi, M. Mignoli, P. Cassata, M. Dickinson, A. Franceschini, B. Lanzoni, C. Mancini, L. Pozzetti,
Galaxy Clusters Perseus Cluster in X-rays. Why study clusters? Clusters are the largest virialized objects in the Universe. Cosmology: tail of density.

Galaxy Clusters Perseus Cluster in X-rays. Why study clusters? Clusters are the largest virialized objects in the Universe. Cosmology: tail of density.
Neutral Hydrogen Gas in Star Forming Galaxies at z=0.24 HI Survival Through Cosmic Times Conference Philip Lah.

Neutral Hydrogen Gas in Star Forming Galaxies at z=0.24 HI Survival Through Cosmic Times Conference Philip Lah.
Evolution of Galaxy groups Michael Balogh Department of Physics University of Waterloo.

Evolution of Galaxy groups Michael Balogh Department of Physics University of Waterloo.
Galaxy properties in different environments: Observations Michael Balogh University of Waterloo, Canada (Look for 3 new job postings on AAS soon)

Galaxy properties in different environments: Observations Michael Balogh University of Waterloo, Canada (Look for 3 new job postings on AAS soon)
Cosmological formation of elliptical galaxies * Thorsten Naab & Jeremiah P. Ostriker (Munich, Princeton) T.Naab (USM), P. Johannson (USM), J.P. Ostriker.

Cosmological formation of elliptical galaxies * Thorsten Naab & Jeremiah P. Ostriker (Munich, Princeton) T.Naab (USM), P. Johannson (USM), J.P. Ostriker.

Similar presentations

Ads by Google