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Open Clusters: At The Interface of Stellar Evolution and Stellar Dynamics Robert D. Mathieu University of Wisconsin - Madison.

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Presentation on theme: "Open Clusters: At The Interface of Stellar Evolution and Stellar Dynamics Robert D. Mathieu University of Wisconsin - Madison."— Presentation transcript:

1 Open Clusters: At The Interface of Stellar Evolution and Stellar Dynamics Robert D. Mathieu University of Wisconsin - Madison

2 The Open Star Cluster NGC 188 (7 Gyr) Aaron Geller David Latham

3 WIYN Open Cluster Study

4 [Fe/H] Log Age (Gyrs) N6791 N6819 N2682 (M67) N188 N7789 N2506 N2168 (M35) N2264 N2099

5 Stellar Radial Velocities NGC 2168 (M35) (0.15 Gyr) –1690 stars –8323 measurements –102 binaries –For N-body initial conditions NGC 188 (7 Gyr) –1197 stars (0.8 M o 0.4) –10,101 measurements (  = 0.4 km s -1 ) –132 binaries (P < 3000 d )

6 Spectroscopic Binaries (P < 3000 d ) 1.3 M o M67 4.5 Gyr

7 NGC 188 (7 Gyr) (Hard) Binary Frequency 29% ± 3 P < 10 4 days

8 The Open Star Cluster NGC 188 (7 Gyr) Blue Stragglers

9 Binary Frequency 76% ± 21% Main Sequence 29% ± 3 NGC 188 Blue Stragglers Mathieu & Geller 2009

10 NGC 188 Blue Stragglers Eccentricity - Period Distribution

11  NGC 188 Blue Stragglers Geller & Mathieu 2011 Secondary Mass Distribution

12 NGC 188 Blue Stragglers Geller & Mathieu 2011 7 Gyr 2.5 Gyr Rotation (vsin i) Distribution

13 NGC 188 Blue Stragglers Geller et al. 2008 2.5 Gyr Spatial Distribution Mathieu & Latham 1986

14 NGC 188 Blue Stragglers Secondary T eff  M 2 ≈ 1 M  Secondary T eff  M 2 ≈ 1 M  q = 0.68  M 1 ≈ 1.5 M  q = 0.68  M 1 ≈ 1.5 M  But L and T eff  M 1 ≈ 1.2 M  But L and T eff  M 1 ≈ 1.2 M  x Blue Straggler Mass Photometric Dynamical 1.5 M o

15 NGC 188 Blue Stragglers Hard binary frequency 76% Hard binary frequency 76% Typical orbital period ≈ 1000 days Typical orbital period ≈ 1000 days Typical secondary mass 0.5 M o Typical secondary mass 0.5 M o Rapidly rotating (modestly) Rapidly rotating (modestly) Bimodal spatial distribution Bimodal spatial distribution Dynamical mass < Evolution track mass Dynamical mass < Evolution track mass

16 M67 (Latham 2007) Field (Carney et al. 2001) Blue Stragglers in Old Populations NGC 188

17 NGC 188 Blue Stragglers How To Make Long-P Blue Stragglers Hypothesis Secondary Star McCrea (1964), Chen & Han (2008), etc. Collision during binary encounter Main-sequence star Leonard (1996), Leigh & Sills (2011), etc Leonard (1996), Leigh & Sills (2011), etc. Kozai-driven merger of close binary in triple Main-sequence star Ivanova (2008), Perets & Fabrycky (2009 Ivanova (2008), Perets & Fabrycky (2009) Mass transfer (Case C – AGB) C/O white dwarf

18 NGC 188 Blue Stragglers Collisions (from N-body model; Geller, Hurley, Mathieu 2012) Collisions (from N-body model; Geller, Hurley, Mathieu 2012)  Geller & Mathieu 2011 How To Make Long-P Blue Stragglers

19  NGC 188 Blue Stragglers Geller & Mathieu 2011 0.55 M  CO WDs Case C mass transfer How To Make Long-P Blue Stragglers

20 NGC 188 Blue Stragglers Geller & Mathieu 2011 Evolvedtertiaries from field (Tokovinin 1997, 2008) How To Make Long-P Blue Stragglers

21 NGC 188 Blue Stragglers  One more constraint on tertiary distribution: All SB1s 6.6% chance to detect zero secondaries6.6% chance to detect zero secondaries 1.8% chance to also realize the observed mass-function distribution1.8% chance to also realize the observed mass-function distribution BS Primarie s How To Make Long-P Blue Stragglers

22 Outstanding questions Orbital eccentricities (dynamical encounters? “e-pumping”?) Luminosity and temperature (CMD) distribution Primarily Case C mass transfer NGC 188 Blue Stragglers How To Make Long-P Blue Stragglers Some Case B mass transfer? Some mergers in triples?

23 NGC 188 Blue Stragglers How To Make Short-P BSs SB2 => q ~ 1 SB2 => q ~ 1 Two blue stragglers!!! Two blue stragglers!!!

24 S1082 P=1.07 d A Very Special M67 Blue Straggler

25 Van den Berg et al. 2001 Sandquist et al. 2003 1.58 M o 2.52 M o 1.07 d S1082 P=1.07 d

26 0.3 M  1.46 M  Primordial Binary Period: 47,860 days Eccentricity: 0.8 A Caution from Stellar Dynamics Simulation of M67 Hurley et al. 2005

27 2.089 Gyr later Simulation of M67

28 0.3 M  1.46 M  0.42 M  0.38 M  4-body interaction Simulation of M67

29 circularized mass transfer event merger 1.88 M  Blue Straggler 1.46 M  0.42 M  Period: 1.1 days Eccentricity 0.8 Simulation of M67

30 But wait…there’s more Simulation of M67

31 0.86 M  0.81 M  Primordial Binary at cluster core 0.86 M  A blue straggler formed through a merger ends up in the cluster core with an originally unrelated star. 1.88 M  Blue Straggler Simulation of M67

32 NGC 188 Blue Stragglers How To Make Open Cluster Blue Stragglers Hypothesis Frequency Collision during binary encounter Merger of close binary in triple Mass transfer (Case C – AGB) Primary channel What can happen, will

33 Credit : A. M. Geller

34 51 Credit : A. M. Geller 41 orbits of Hubble Space Telescope ACS to see if the white dwarfs are there!

35 “Future” Observations Gosnell et al. poster – UV imaging of NGC 188 BS with Hubble NGC 188 Blue Stragglers

36 Findings from N-Body Simulations Aaron Geller… on Thursday! …

37 Open Cluster Blue Stragglers And don’t forget the 5 blue stragglers with constant RV (singles or long period?) Case C (& B) Mass Transfer Summary Multiple formation mechanisms, but mass transfer dominates Dynamical Processes

38 Aaron M. Geller And don’t forget the 5 blue stragglers with constant RV (singles?) Multiple formation mechanisms, but mass transfer dominates Case C (& B) Mass Transfer (+ dynamical encounters/“e-pumping”, mergers in triples? ) NGC 188 Blue Stragglers How To Make Long-P Blue Stragglers

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