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By Soren S. Larsen (arXiv: 0911.0796) 2009.11.10 Reporter: Sun Wei.

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Presentation on theme: "By Soren S. Larsen (arXiv: 0911.0796) 2009.11.10 Reporter: Sun Wei."— Presentation transcript:

1 By Soren S. Larsen (arXiv: 0911.0796) 2009.11.10 Reporter: Sun Wei

2 Tools to study (extra)galactic SF histories Long-lived Bright Question: What are the conditions for the formation and survival of massive clusters?

3 Focusing on… The General problem of cluster formation Dynamical evolution The shape of the initial cluster mass function (ICMF)

4 Basic observation results-Milky Way Open and Globular Clusters Mass upper-limit of OCs:, a order of magnitude lower than that of GCs – Selection Bias Flat mass spectrum at low masses of GCs: a hint of dynamical evolution McLaughlin & Pudritz 1996 Piskunov et al 2008

5 Basic Observation Result-Local Group Magellanic Clouds Old age as a defining criterion Similar LF of old LMC clusters to that of Galactic GCs (Harris 1991) – similar MFs Similar power law distributions of the young LMC and MW clusters IC 1613: very few star clusters M 31 & M 33: appear consistent De Grijs & Anders 2006

6 Basic Observation Result-Beyond the Local Group Most studied: Starburst (M82) & merging (M51) galaxies Age range: More massive ( ) young clusters were found in normal spiral galaxies (Larsen & Richtler 2004: M 83) Later than Sb

7 Formation of Clusters Giant Molecular Cloud -> Embedded star clusters Star formation efficiency Relation between mass function of GMCs and the clusters forming within them The embedded phase Ablating process of the gas

8 GMC -> Embedded Clusters SF efficiency Average density of GMC: Density needed for star forming: and : at least 20% - 30% for early dynamical evolution Relation between MF of GMCs and Clusters Upper mass: Power law slope: Williams & McKee 1997

9 The embedded phase Duration: uncertain but short (e.g., R136, Antennae, NGC4449, etc) Physical mechanism of expelling the gas? (Krumholtz & Matzner 2009) Supernovae? Stellar winds or trapped infrared/Lyα photons? Radiation pressure is most likely the dominant gas- evacuation mechanism in massive clusters.

10 Dynamical Evolution Early dynamical evolution: ‘Infant Mortality’ Clusters disruption after/with the gas expulsion Age distribution of mass-limited cluster samples in M51 & M33: The cluster-formation efficiency: Γ~8%? Secular evolution Maxwellian velocity distribution External shocks Dissolution timescale Evolution of MF: connection between OC & GC? M 33: Sarajedini & Mancone 2007 M 51: Fall et al. 2005

11 No Conclusion but

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