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Summary of Experiences from Observations of the Be  binary  Sco Anatoly Miroshnichenko University of North Carolina at Greensboro USA Properties of Be.

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Presentation on theme: "Summary of Experiences from Observations of the Be  binary  Sco Anatoly Miroshnichenko University of North Carolina at Greensboro USA Properties of Be."— Presentation transcript:

1 Summary of Experiences from Observations of the Be  binary  Sco Anatoly Miroshnichenko University of North Carolina at Greensboro USA Properties of Be Stars Basic Parameters of the  Sco System Observed Behaviour of the System Conclusions That Can Be Made Now

2 Properties of Be Stars Definition: Be stars are rapidly rotating non-supergiant objects of spectral type B that sometimes show hydrogen emission lines in their spectra Spectral type: O9 – A1 (Teff : ~30000  9000 K) Luminosity: 100 – 3 10 4 L ʘ Projected rotation velocity (v sin i): up to break-up V break-up = 436 (M/M ʘ ) 1/2 (R/R ʘ )  1/2 km/s

3

4 Basic Stellar Parameters Evolutionary tracks for single stars (numbers are initial masses in M ʘ) Zero-age main- sequence

5 Circumstellar Disks of Be Stars Properties: Flat near the star Disk thickness increases outward from the star Density drops with distance from the star as r  n Density exponent n ~ 2.5  4.0 (simplified models) Disks are temporary (can be present for decades) Disks can suddenly appear or disappear Disks can change into rings Disks can add to the continuum brightness (up to 70% in the optical region)

6 Theoretical Disk Structure Carciofi & Bjorkman (2004, Polarization Conf., Hawaii)

7 Reasons for the Be Phenomenon Rapid rotation can be intrinsic (from birth) or induced (mass-transfer in a binary system) Mass loss (disk formation) can be triggered by pulsations or by close passages in binaries Disk material orbits the star moving outward through viscosity If mass loss from the star exceeds mass loss from the disk, the material is accumulated near the star

8 Hypotheses about the Nature of the Be phenomenon Non-radial pulsations may be a triggering mechanism for the mass loss from at least early- type Be stars (Rivinius et al. 2003, A&A, 411, 229) In a binary system, the mass gainer spins-up to critical rotation (Křiž & Harmanec 1976, Bull. Astr. Inst. Czekh., 26, 65)

9 Non-Radial Pulsations

10 Line Formation in Disks McDonald Observatory R=60000

11 Disk Size Effects

12 Continuum Excess Radiation  Aqr 1998 small or no disk 1983 large disk UV Opt+IR

13  Scorpii R.A. 16h 01m, Dec.  22  38 (J2000)

14 Parameters of  Sco Optical brightness without disk, V=2.32 mag Spectral type B0.3 IV Distance, D = 123  15 pc Luminosity, log L/L ʘ = 4.4  0.1 Surface temperature, Teff = 27500  500 K Surface gravity, log g = 4.0 (typical for a dwarf) This is a binary system with an angular separation at apoastron of 0.2 arcseconds Orbital period, P = 10.6  0.1 years (uncertain) Eccentricity, e = 0.94  0.01 Secondary,  V ~1.5 mag, Sp.T. ~B3 (uncertain)

15  Sco without Disk

16 Orbit of  Sco Average radial velocities of the H  emission line

17 Orbit of  Sco

18 Brightness Variations of  Sco

19 = 0.5  m = 2.2  m

20 Recent Brightness Variations

21 H  line in 2000  2003

22 Disk in 2001 From Carciofi et al. (2006, ApJ, 652, 1617)

23 Disk in 2001

24 H  line in 2004  2007

25 H  EW Evolution

26 Brightness  Spectrum

27 H  Line Width Drop Seen since March 2005 CII, CIV Line emission?

28 Possible Explanations The brightness decrease in 2004/5 can be due to a decreasing mass loss from the primary The disk became a ring Observed consequences: The H  line width decreased (no contribution from rapidly rotating part of the disk) The line equivalent width (EW) decreased

29 What to Expect at Periastron Current disk size is ~ 20 R 1 or ~ 150 R ʘ It may grow larger as time goes Distance between the stars at periastron is d = 24 R 1 Primary’s Roche lobe size ~ 0.6 d or ~ 15 R 1 Consequences: Some disk material may flow into the secondary’s Roche lobe Disk may become denser and line emission will rise Single- or triple-peak profiles may be observed

30 Roche Lobes

31 Conclusions and Suggestions The binary is coming to its next periastron in February  May 2011 (observable from the Northern hemisphere) Weekly observations are important before periastron and more frequent around it Photometry needs to accompany spectroscopy Radial velocity data will constrain the orbital period Impact of the Roche lobe compression on the disk may be revealed

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