Improving mass and age estimates of unresolved stellar clusters Margaret Hanson & Bogdan Popescu Department of Physics.

Slides:

Advertisements

Similar presentations

To measure the brightness distribution of galaxies, we must determine the surface brightness of the resolved galaxy. Surface brightness = magnitude within.

Advertisements

Lecture 21 updates. Hubble’s STIS Spectrograph Please include this image at the start of the images of STIS.

Formation of Globular Clusters in  CDM Cosmology Oleg Gnedin (University of Michigan)

CLUES TO THE FORMATION AND EVOLUTION OF THE MILKY WAY

ASTR112 The Galaxy Lecture 3 Prof. John Hearnshaw 5. Stellar populations 6. Galactic (open) clusters The Pleiades open cluster.

 Star clusters may often be modelled as simple stellar populations → useful tools to constrain the star formation history of their host galaxies (refs).

The Milky Way Galaxy part 2

Constraining Astronomical Populations with Truncated Data Sets Brandon C. Kelly (CfA, Hubble Fellow, 6/11/2015Brandon C. Kelly,

Copyright © 2010 Pearson Education, Inc. Clicker Questions Chapter 10 Measuring the Stars.

AGN and Quasar Clustering at z= : Results from the DEEP2 + AEGIS Surveys Alison Coil Hubble Fellow University of Arizona Chandra Science Workshop.

Structure of the Universe Astronomy 315 Professor Lee Carkner Lecture 23.

The Complex Star Formation History of NGC 1569 L. Angeretti 1, M. Tosi 2, L. Greggio 3, E. Sabbi 1, A. Aloisi 4, C. Leitherer 4 The object The observations.

Making a Color-Magnitude Diagram for Globular Cluster Omega Centauri Jay Anderson, STScI 1.

Properties of Main Sequence Stars Masses Luminosities Lifetimes Distribution.

Advanced Methods for Studying Astronomical Populations: Inferring Distributions and Evolution of Derived (not Measured!) Quantities Brandon C. Kelly (CfA,

Lecture 36: The Expanding Universe. Review the ‘zoo’ of observed galaxies and the Hubble Sequence the ‘zoo’ of observed galaxies and the Hubble Sequence.

GIANT TO DWARF RATIO OF RED-SEQUENCE GALAXY CLUSTERS Abhishesh N Adhikari Mentor-Jim Annis Fermilab IPM / SDSS August 8, 2007.

Levels of organization: Stellar Systems Stellar Clusters Galaxies Galaxy Clusters Galaxy Superclusters The Universe Everyone should know where they live:

Measuring Distances. Introduction Trigonometric Parallax Spectroscopic Parallax Cepheid Variables Type Ia Supernovae Tully-Fisher Relationship Hubble’s.

15.3 Galaxy Evolution Our Goals for Learning How do we observe the life histories of galaxies? How did galaxies form? Why do galaxies differ?

Review for Exam 3.

Chapter 11 Surveying The Stars Surveying The Stars.

Kinematics of Globular Clusters in Giant Elliptical Galaxies Hong Soo Park 1, Myung Gyoon Lee 1, Ho Seong Hwang 2, Nobuo Arimoto 3, Naoyuki Tamura 4, Masato.

Overview of Astronomy AST 200. Astronomy Nature designs the Experiment Nature designs the Experiment Tools Tools 1) Imaging 2) Spectroscopy 3) Computational.

The potential of JWST to Measure the Mass- Loss Return from Stars to Galaxies Acknowledgements: Funding from NASA-ADAP, Herschel/HERITAGE, and NAG5 grants.

Galaxies and More Galaxies! It is now believed that there are over 100 billion galaxies, each with an average of 100 billion stars… stars altogether!

What can we learn from the luminosity function and color studies? THE SDSS GALAXIES AT REDSHIFT 0.1.

A study of the ages of Large Magellanic Cloud star clusters Randa Asa’d University of Cincinnati Adviser: Dr. Margaret Hanson Bucuresti 23 Septembrie 2010.

Galaxy Collisions Top left is an image of the Cartwheel galaxy. The ring of young stars was likely created as a smaller galaxy passed through the disk.

Red Clump Distance Measurements Andrew Lipnicky Astronomy Observational Techniques and Instrumentation May 9, 2013.

IAS, June 2008 Caty Pilachowski. Visible in the Southern Sky Listed in Ptolemy's catalog Discovered by Edmond Halley in 1677 –non-stellar –"luminous spot.

After decoupling, overdense regions collapse IF Collapse timefor all sizes. More small ripples than large waves. --> Universe dominated by globular clusters.

Physical properties. Review Question What are the three ways we have of determining a stars temperature?

Stars!!!! Galaxies and the Universe too!. Stars are far away! The closest star to Earth is the sun. The next closest is Proxima Centauri If you can travel.

Hubble's 25th Anniversary: Hubble's Views of Star and Cluster Formation Drs. Carol Christian, Antonella Nota, and Brad Whitmore May 7, 2015.

Read pp Fill in your Cornell notes about galaxies!

Galaxies Observing logs due April 27th!!.

A Photometric Study of Unstudied Open Clusters Berkeley 49 & 84 in the SDSS Jinhyuk Ryu and Myung Gyoon Lee Department of Physics & Astronomy, Seoul National.

Revised GALEX Ultraviolet Catalog of Globular Clusters in M31 Kyungsook Lee (1), Soo-Chang Rey (1), Sangmo Tony Sohn (2), and GALEX Science Team (1) Department.

New and Odds on Globular Cluster Stellar Populations: an Observational Point of View (The Snapshot Database) G.Piotto, I. King, S. Djorgovski and G. Bono,

The IMF of the Orion Nebula Cluster Across the H-burning Limit Nicola Da Rio HST Orion Treasury Science Meeting STScI, Baltimore, September 12 th 13 th.

Critical Steps in Population Synthesis Alessandro Bressan MAGPOP Summer School - Budapest, Hungary, August

Is the Initial Mass Function universal? Morten Andersen, M. R. Meyer, J. Greissl, B. D. Oppenheimer, M. Kenworthy, D. McCarthy Steward Observatory, University.

Astronomy 404/CSI 769 Extragalactic Astronomy

Quasars and Other Active Galaxies

The White Dwarf Age of NGC 2477 Elizabeth Jeffery Space Telescope Science Institute Collaborators: Ted von Hippel, Steven DeGennaro, David van Dyk, Nathan.

Subaru Wide-Field Survey of M87 Globular Cluster Populations N.Arimoto (NAOJ) N.Tamura, R.Sharples (Durham) M.Onodera (Tokyo, NAOJ), K.Ohta(Kyoto) J.-C.Cuillandre.

Lecture 18 Stellar populations. Stellar clusters Open clusters: contain stars loose structure Globular clusters: million stars centrally.

Globular Clusters. A globular cluster is an almost spherical conglomeration of 100,000 to 1,000,000 stars of different masses that have practically.

The Photometric Properties of NGC 6134 and Hogg 19 SDSS u’g’r’i’z’ Open Cluster Survey: Credit: Credit: SMARTS consortium.

June 5, 2006 AAS/Calgary Stellar Populations: Old Stars in the Nearest E Galaxy From Field Stars to Globular Clusters.

Hi. My name is Alexia Lewis

Measuring the Stars What properties of stars might you want to determine?

A105 Stars and Galaxies  Homework due today  Remote observing this weekend Today’s APODAPOD.

The Formation and Evolution of Galaxies Michael Balogh University of Waterloo.

H205 Cosmic Origins  Today: Galaxies (Ch. 20)  Wednesday: Galaxy Evolution (Ch. 21)  EP 4 & Reflection 1 on Wednesday APOD.

Miguel CerviñoESAC 23 March 2007 How to use the SEDs produced by synthesis models? Miguel Cerviño (IAA-CSIC/SVO) Valentina Luridiana (IAA-CSIC/SVO)

Chapter 21 Galaxy Evolution Looking Back Through Time Our goals for learning How do we observe the life histories of galaxies? How did galaxies.

Chapter 25 Galaxies and Dark Matter. 25.1Dark Matter in the Universe 25.2Galaxy Collisions 25.3Galaxy Formation and Evolution 25.4Black Holes in Galaxies.

On the importance of the few most massive stars: the ionizing cluster of NGC 588 L. Jamet 1, E. Pérez 2, M. Cerviño 2, G. Stasinska 1, R.M. González Delgado.

Galaxy formation and evolution with a GSMT: The z=0 fossil record 17 March, 2003.

Star Formation in NGC 1097 NGC 1097 is a strongly barred, gas-rich, spiral galaxy ~ 45 million light-years away. The power source of its light is a combination.

Lightcones for Munich Galaxies Bruno Henriques. Outline 1. Model to data - stellar populations and photometry 2. Model to data - from snapshots to lightcones.

Measuring the Stars How big are stars? How far away? How luminous?

Recent Star Formation Histories of Dwarf Galaxies

Compare Nearby and Distant Clusters of Galaxies

IMF inferred based on field stars (red) and based on a variety of clusters (blue, green, and black) (Kroupa 2002)

Proxima Centauri, the red star at the center, is the closest star to the sun. A star is a large, glowing ball of gas in space, which generates energy through.

Presentation transcript:

Improving mass and age estimates of unresolved stellar clusters Margaret Hanson & Bogdan Popescu Department of Physics

How old are galaxies? 2/21 But we can see galaxies which contain mostly OLD or mostly YOUNG stars. Why does star formation cease? What triggers star formation? This is something we wish to understand: Galaxies, their formation and evolution. How is this done? An old elliptical galaxy A young spiral galaxy To first order, they are the age of the universe. Through their stars

Age, distance, as well as mass and chemistry, can be reasonably well characterized for a stellar cluster. Clusters are like time capsules In star clusters, all stars are the same age 3/21 We need to study the colors of the individual stars in the cluster to derive the age. The stars lie in different regions based on their intrinsic mass. Single aged stellar cluster Color-Magnitude Diagram of stars in a single (old) cluster. We rely on stellar evolution theory to derive ages of star clusters

Hubble Telescope images of star clusters in M33. For nearby galaxies, we can still make out the individual stars.. A bit. 4/21 M33 San Roman et al., 2009, ApJ

It works, but more accurate ages are found in a same age star cluster What about field populations? 5/21 More Hubble Space Telescope Images. A: ACS, W: WFPC2). A1 field Mixed stellar populations CMD of a mixed population of stars Red clump Red Giant Branch Young blue stars M33 Barker et al., 2007, AJ

NGC 628 6/21 What if you can’t see individual stars? Single stars in galaxies more than 1 million light years away can not typically be resolved. However, single stellar clusters can be seen.

7/21 Stellar clusters exist in all galaxies you understand their host galaxy. If you understand the star clusters..

If we can derive accurate ages and masses for the clusters, they provide us with a means to measure the star formation history of a distant galaxy. Stellar clusters range in age from millions to billions of years old 8/21 But That’s a big IF M51 How much can you confidently determine from these blobs? This is what we hope to improve upon! S.S. Larson, 2000, MNRAS Improving mass and age estimates of unresolved stellar clusters (Talk title)

How is it done presently? The clusters are measured in individual bands, (U, B, V, etc.) 9/21 Blue Red Blue Red The location of clusters in these diagrams are compared to predictions by Simple Stellar Population (SSP) models to get age. (ApJ, 1985) Young blue Old red

Deriving age and mass of clusters 10/21 Blue, young Red, old Girardi et al., 1995, A&A Mass comes from apparent magnitude once age has been constrained

This method remains in use today Why is this method still used? 11/21 ACS imaging of star clusters Mora et al., 2009, A&A There is no other way to do it

Clusters will have quite varied properties 12/21 Our new models derive light as fxn of age and mass. This allows for the stochastic variation expected to be seen in real clusters (particularly low mass clusters). Our SSP-like model is called MASSCLEAN SSP models use statistics of stellar evolutionary lifetimes to assign the fractional light expected from the different stars as the cluster ages. They assume, light is ONLY a function of age, not mass.

Mass Kroupa-Salpeter IMF Mass Distribution Geneva/Padova Database, metalicity Stellar Evolution r t, r c King Model Spatial Distribution A V, R V, d CCM Model Extinction Cluster Model Age Stellar density, magnitude limits “SKY” Model Stellar Field 13/21 MASS ive Cluster Evolution and Analysis Package ( MASSCLEAN )

Real clusters versus Simulated cluster  Stolte et al. (2004): 1x10 6 yrs 7x10 3 M  Av=4.5 6 kpc 14/21 NGC 3603 at the distance of M31 (as seen by HST/ACS)

50 million Monte Carlo models The B-V color lines up along the expected SSP line for a high mass cluster. 15/21 But, as cluster mass decreases the variance on B-V begins to increase. Among low mass clusters, B-V colors are found far from SSP predictions. 50,000 M ,000 M ,000 M ,000 M ,000 M M

All together.. 13/15

What about the color-color plot? Note the broad range of real cluster colors. Is it at all surprising? 17/21 Showing the 1-sigma range is deceptive when the distribution is non-Gaussian. Popescu & Hanson, 2010, ApJ Letters Popescu & Hanson, in prep. `Real clusters’ (Monti Carlo results) lie here:

What good is this? 18/21 Popescu & Hanson, in prep. How is this helping?? Improving mass and age estimates of unresolved stellar clusters (Talk title)

There is power in information… 19/21 We now have a database of over 50 million models. We can work back, using a statistical inference code, to determine what the most likely mass and age is for a cluster, given its observed light properties. Popescu & Hanson, in prep.

Hunter et al. (2003) Improved ages (& masses) based on photometry alone 20/21 Popescu & Hanson, in prep.Based on Hunter et al. (2003) UBV Magnitudes, we are re- calculating all ages and masses for 900+ LMC clusters.. Note how few clusters fall in the ‘SSP-friendly’ range of mass.

Take Away Message Only extremely massive clusters (> 50,000 Msun) can be approximated well with current SSP models Monte Carlo simulations show the remarkable and extreme range of observed values demonstrated by moderate mass clusters. Output from our Monte Carlo simulations allows SIMULTANEOUS solutions to better constrain the mass and age of all stellar clusters. 21/21