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Jason Kalirai (STScI) Diamonds in the Rough: The Oldest Stars in the Galaxy Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009.

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Presentation on theme: "Jason Kalirai (STScI) Diamonds in the Rough: The Oldest Stars in the Galaxy Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009."— Presentation transcript:

1 Jason Kalirai (STScI) Diamonds in the Rough: The Oldest Stars in the Galaxy Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 1 Outline An Introduction: The First Hints on How Stars Evolve. Our Current Picture of Stellar Evolution A Surprise in our Backyard: The First “Discovered” White Dwarf Why Search for Dead Stars ? What 120 orbits of Hubble Space Telescope Time Gets You. Summary and Future Outlook

2 An Interesting Correlation: The Hertzsprung-Russell Diagram Ejnar Hertzsprung (1905) Parallax: Parallax angle = 1 / (distance to star) Observation: 1.) Stars with the same parallax have different luminosities. Giants vs Dwarfs! First luminosity classes created. 2.) Luminosities of some stars are correlated with their colors… Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 2

3 An Interesting Correlation: The Hertzsprung-Russell Diagram Publ. Astrophys. Observ. Potsdam 22, 1, 1911 Ejnar Hertzsprung Henry Norris Russell The Observatory, Vol. 36, 324, 1913 Luminosity Temperature Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 3

4 An Interesting Correlation: The Hertzsprung-Russell Diagram Publ. Astrophys. Observ. Potsdam 22, 1, 1911 Ejnar Hertzsprung Henry Norris Russell The Observatory, Vol. 36, 324, 1913 Luminosity Temperature “Zur Strahlung der Sterne” (On the Luminosity of the Stars) - Hertzsprung, E., Zeitschrift fur Wissenschaftliche Photographie (Journal for Scientific Photography), Vol. 3, 442, 1905 - Hertzsprung, E., Publ. Astrophys. Observ. Potsdam, Vol. 22, 1, 1911 “Giant and Dwarf Stars” - Russell, H. N., The Observatory, Vol. 36, 324, 1913 “On the Probable Order of Stellar Evolution” - Russell, H. N., The Observatory, Vol. 37, 165, 1914 “…one corner of the diagram is vacant…There do not seem to be any faint white stars. All of the very faint stars are very red.” “…the converse propositions are not true; there is no doubt at all that there exist many very bright red stars (such as Arcturus, Aldebaran, Antares, etc.).” “There appears, from the rather scanty evidence at present available, to be some correlation between mass and luminosity.” Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 3a

5 Two Key Properties 1.) Star formation produces predominantly low mass stars. 2.) Stellar evolution depends primarily on mass. Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 4 Diamonds in the Rough: The Oldest Stars in the Galaxy

6 Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 5

7 - Sirius: brightest star in the night sky (V = -1.5). - 1840’s - exhibits irregular motions on the sky (Bessel 1844). - Optical detection of companion by Alvan Clark in 1862. Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 6 Diamonds in the Rough: The Oldest Stars in the Galaxy

8 - 50 year binary orbit 1 M sun companion, but M V = 11.3 (0.003 L sun )! - Sirius A and B have similar colors Radius of Sirius B = 1/100 Sirius A. - Adams (1914; 1925): spectrum is white, gravitational redshift measured. - White dwarf: very dense remnant of a hydrogen burning star (no fuel). Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 7 Diamonds in the Rough: The Oldest Stars in the Galaxy

9 Discovery: 1985 1862 Size: 5 cm 1,000,000,000 cm Mass: 0.1 kg 1 X 10 30 kg Density: 5 g/cm 3 1,000,000 g/cm 3 Value: >10 million USD ----------------- White Dwarf Fact Sheet Composition: Carbon core under extreme pressure….a diamond! Golden Jubilee Diamond VS Average White Dwarf Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 8 Diamonds in the Rough: The Oldest Stars in the Galaxy

10 Discovery: 1985 1862 Size: 5 cm 1,000,000,000 cm Mass: 0.1 kg 1 X 10 30 kg Density: 5 g/cm 3 1,000,000 g/cm 3 Value: >10 million USD ----------------- White Dwarf Fact Sheet Composition: Carbon core under extreme pressure….a diamond! Golden Jubilee Diamond VS Average White Dwarf Finders Fee: $$$$$ <<10 million USD Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 8a Diamonds in the Rough: The Oldest Stars in the Galaxy

11 1.) Over 97% of all stars will eventually form white dwarfs. Unique link to the distribution of first generation stars in old stellar populations. 2.) White dwarfs cool predictably with time use as chronometers. 3.) Upper mass limit to white dwarf production = lower limit to type II SNe. 4.) Constraining fundamental stellar evolution and stellar mass loss. 5.) Theoretical calibration of evolutionary models of AGB and PN phases. A Few Reasons to Study White Dwarfs Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 9 Diamonds in the Rough: The Oldest Stars in the Galaxy

12 How Do We Find These Gems ? Should be faint and blue. Search rich stellar populations. Stellar Associations (young and sparse) 10’s of stars Open Star Clusters (Intermediate age) 1000’s of stars Globular Star Clusters (old and rich) 100,000’s of stars Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 10 Diamonds in the Rough: The Oldest Stars in the Galaxy

13 White Dwarfs in Globular Clusters ? Buonanno et al. (1994, A&A, 290, 69) Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 11 Diamonds in the Rough: The Oldest Stars in the Galaxy

14 Ultra-deep HST Imaging of the Nearest Clusters Measure the ages of nearby globular clusters using white dwarf cooling theory. 1 st study - Messier 4 - 123 orbits of HST/WFPC2 awarded in Cycle 9. 2 nd study - NGC 6397 - 126 orbits of HST/ACS awarded in Cycle 13. 3 rd study - 47 Tuc - 121 orbits of HST/ACS and WFC3 to be executed in Cycle 17. Hansen et al. (2007, ApJ, 671, 380) Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 12 Diamonds in the Rough: The Oldest Stars in the Galaxy

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18 Kalirai et al. (2008, ApJL, 682, 37)

19 The Age of the MW Halo NGC 6397 126 HST/ACS orbits Richer et al. (2006, Science, 313, 936) Hansen et al. (2007, ApJ, 671, 380) Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 16 Diamonds in the Rough: The Oldest Stars in the Galaxy

20 Kalirai et al. (2007, ApJL, 657, 93) The Age of the MW Halo NGC 6397 126 HST/ACS orbits Richer et al. (2006, Science, 313, 936) Hansen et al. (2007, ApJ, 671, 380) Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 -16a Diamonds in the Rough: The Oldest Stars in the Galaxy

21 Kalirai et al. (2007, ApJL, 657, 93) The Age of the MW Halo NGC 6397 126 HST/ACS orbits Richer et al. (2006, Science, 313, 936) Hansen et al. (2007, ApJ, 671, 380) Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 -16b Diamonds in the Rough: The Oldest Stars in the Galaxy

22 Kalirai et al. (2007, ApJL, 657, 93) The Age of the MW Halo NGC 6397 126 HST/ACS orbits Richer et al. (2006, Science, 313, 936) Hansen et al. (2007, ApJ, 671, 380) Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 -16c Diamonds in the Rough: The Oldest Stars in the Galaxy

23 Signature of a White Dwarf Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 17 Diamonds in the Rough: The Oldest Stars in the Galaxy

24 Signature of a White Dwarf Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 -17a Diamonds in the Rough: The Oldest Stars in the Galaxy

25 Signature of a White Dwarf Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 -17b Diamonds in the Rough: The Oldest Stars in the Galaxy

26 Signature of a White Dwarf Richer et al. (2006, Science, 313, 936) Kalirai et al. (2007, ApJL, 657, 93) Kalirai et al. (2009, ApJ, submitted) NGC 6397 Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 18 Diamonds in the Rough: The Oldest Stars in the Galaxy

27 Hansen et al. (2007, ApJ, 671, 380) Dating the Oldest Stars NGC 6397 126 HST/ACS orbits Conclusions: The Luminosity and Age of the Faintest White Dwarfs 1.) These white dwarfs are more than 1 billion times fainter than the faintest stars seen with the naked eye! 2.) The first stars formed in our Galaxy 12 Gyr ago, 1.7 Gyr after the Big Bang. 3.) The disk of our Galaxy formed much later, 8 Gyr ago. Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 19 Diamonds in the Rough: The Oldest Stars in the Galaxy

28 Kalirai et al. (2009, ApJ, submitted) WDs in Globular Clusters: >400 HST orbits! NGC 6397 126 HST/ACS orbits Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 20 Diamonds in the Rough: The Oldest Stars in the Galaxy

29 The End! Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 21

30 The Age of the MW Disk White dwarf mass function: Liebert, Bergeron & Holberg (2005) Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 22 Diamonds in the Rough: The Oldest Stars in the Galaxy

31 Summary of Globular Cluster Work: White dwarf cooling age of NGC 6397 = 11.5-12.0 Gyr (t = 10.1-12.5 for M4). NGC 6397:    = +3.56 +/- 0.04 mas/yr,    = -17.34 +/- 0.04 mas/yr. Cluster orbit suggests frequent interactions with bulge/disk. Proper motion cleaned study of low mass cluster mass function. z = 0.1 extragalactic globular cluster system found. …and Open Cluster Work: age/distance/reddening/binary fraction/etc… measured for a large sample. M final = (0.109 +/- 0.007)M initial + (0.394 +/- 0.025) M sun. Age of Galactic disk = 8 Gyr, Age of Galactic halo = 12 Gyr. Mass loss is more efficient in higher metallicity environments. NGC 6791 stars evolved along three channels…no age issue, 2nd peak. Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 23 Diamonds in the Rough: The Oldest Stars in the Galaxy

32 Some CFHT CMDs Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 24 Diamonds in the Rough: The Oldest Stars in the Galaxy

33 Weidemann + Reimers & Koester (1980’s) Claver et al. (2001) Dobbie et al. (2004, 2006) Williams et al. (2004, 2007) Kalirai et al. (2005) Liebert et al. (2005) Kalirai et al. (2008, ApJ, 676, 594) Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 - 25 Diamonds in the Rough: The Oldest Stars in the Galaxy

34 Weidemann + Reimers & Koester (1980’s) Claver et al. (2001) Dobbie et al. (2004, 2006) Williams et al. (2004, 2007) Kalirai et al. (2005) Liebert et al. (2005) Kalirai et al. (2008, ApJ, 676, 594) Space Telescope Science Institute: Hubble Science BriefingsJune 11 th, 2009 -25a Diamonds in the Rough: The Oldest Stars in the Galaxy


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