Binaries

1. Binaries Tsevi Mazeh: Leuven-Binaries

2. Visual Binaries Spectroscopic Binaries Eclipsing Binaries Tsevi Mazeh: Leuven-Binaries

3. Double stars Rev. John Mitchell - 1767 “it is highly probable in particular, and next to a certainty in general, that such double stars as appear to consist of two or more stars placed very near together, do really consist of stars placed near together, and under the influence of some general law.” The definitive existence of binary stars was demonstrated by William Herschel in 1802. Tsevi Mazeh: Leuven-Binaries

4. Binary stars Visual spectroscopic astrometric eclipsing A multitude of types Unresolved by telescope, but two sets of spectral lines seen Resolved by telescope into two stars Oscillatory motion on the sky Stars periodically pass in front of each other in our LOS Tsevi Mazeh: Leuven-Binaries

5. Example of Visual Binaries Krueger 60 : d = 4 pc M3.5V + M 4V, Period = 44.5 years Tsevi Mazeh: Leuven-Binaries

6. Example of Visual Binaries Tsevi Mazeh: Leuven-Binaries

7. Visual Binaries a d Tsevi Mazeh: Leuven-Binaries

8. Kepler’s 3rd law: Tsevi Mazeh: Leuven-Binaries

9. Ursa Major, The Big Bear (Big Dipper) • Mizarwas the first known binary, noticed in 1650 by Riccioli. Tsevi Mazeh: Leuven-Binaries

10. Mizar: A binary within a binary Tsevi Mazeh: Leuven-Binaries

11. Resolution of a telescope Tsevi Mazeh: Leuven-Binaries

12. Binary system Mizar A Observed by NPOI Navy Prototype Optical Interferometer (NPOI) Array south of Flagstaff AZ, The Mizar images were obtained with the inner three 0.5m telescopes. A total of 10 telescopes will be operational starting in 2003. 0.01 arcsec Mizar A binary (period 20 days). Tsevi Mazeh: Leuven-Binaries

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14. Example: Wavelength λ=500nm, baseline B=100m Θ ~ 0.001“ = 1 mas • CHARA– Center for High Angular Resolution Astronomy at Georgia State University • SUSI– Sydney University Stellar Interferometer • NPOI - Navy Prototype Optical Interferometer • Mark III Interferometer • PTI - Palomar Testbed Interferometer Tsevi Mazeh: Leuven-Binaries

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18. Examples of Optical Interferometers Keck Interferometer (2x10m) Mauna Kea, Hawaii VLT Interferometer (4x8m) Chile (ESA) Tsevi Mazeh: Leuven-Binaries

19. a1 a2 M2 M1 The binary motion CM Tsevi Mazeh: Leuven-Binaries

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23. Planet Tsevi Mazeh: Leuven-Binaries

24. Kepler first law: Tsevi Mazeh: Leuven-Binaries

25. Kepler second law: Tsevi Mazeh: Leuven-Binaries

26. Origin of orbits of both stars Empty Periastron point Tsevi Mazeh: Leuven-Binaries

27. The Masses of Sirius A & B • 5th closest star to us: d = 2.63pc • Sirius A is the brightest star in the sky Tsevi Mazeh: Leuven-Binaries

28. Wobble of Sirius Tsevi Mazeh: Leuven-Binaries

29. Sirius AB Binary System HST image Tsevi Mazeh: Leuven-Binaries

30. Orbits of Sirius A and B Tsevi Mazeh: Leuven-Binaries

31. Sirius AB Binary System Tsevi Mazeh: Leuven-Binaries

32. Sirius AB Binary System • Ratio of motion: Distance estimate: a = 7.62” 20.04 AU at a distance of 2.63 pc Kepler’s 3rd law: M1 + M2 = (20.04)3/(49.9)2 = 3.23 Tsevi Mazeh: Leuven-Binaries

33. Sirius AB Binary System • Hence M1 / M2 = 2.3 and M1 + M2 = 3.23 • so, unraveling the masses gives M1 = mass of Sirius A = 2.25 M M2 = mass of Sirius B = 0.98 M Tsevi Mazeh: Leuven-Binaries

34. Sirius AB Binary System 1862- Clark resolved the two stars 1915-Adams obtained a spectrum of Sirius B T~25,000 K Tsevi Mazeh: Leuven-Binaries

35. The H-R Diagram L = 4  R2  T4 Tsevi Mazeh: Leuven-Binaries

36. The Sizes of Stars Tsevi Mazeh: Leuven-Binaries

37. Gliese 229B 8’’ separation 10 mag difference in J,H,K (Nakajima 1995) Tsevi Mazeh: Leuven-Binaries

38. Binary stars Visual spectroscopic astrometric eclipsing A multitude of types Unresolved by telescope, but two sets of spectral lines seen Resolved by telescope into two stars Oscillatory motion on the sky Stars periodically pass in front of each other in our LOS Tsevi Mazeh: Leuven-Binaries

39. Visual Binaries Spectroscopic Binaries Eclipsing Binaries Tsevi Mazeh: Leuven-Binaries

40. One star with a spectrum composed of two spectra Tsevi Mazeh: Leuven-Binaries

41. The Doppler Effect Spectrum of Hydrogen in Lab Spectrum of a Star Tsevi Mazeh: Leuven-Binaries

42. Spectroscopic binary Spectrum of Hydrogen in Lab Spectrum a Star…..Day 1 Spectrum a Star…..Day 2 Spectrum a Star…..Day 3 Spectrum a Star…..Day 4 Tsevi Mazeh: Leuven-Binaries

43. To earth Tsevi Mazeh: Leuven-Binaries

44. Spectroscopic Binaries If the Doppler shift of a star’s absorption lines changes with time (redshift, then blueshift, then redshift, etc.), it’s a spectroscopic binary. Tsevi Mazeh: Leuven-Binaries

45. Spectroscopic Binaries Double-lined spectroscopic binary. Tsevi Mazeh: Leuven-Binaries

46. Spectroscopic Binaries Tsevi Mazeh: Leuven-Binaries

47. Single-lined spectroscopic binary (SB1) Tsevi Mazeh: Leuven-Binaries

48. Single-lined spectroscopic binary (SB1) Tsevi Mazeh: Leuven-Binaries

49. Visual Binaries Spectroscopic Binaries Eclipsing Binaries Tsevi Mazeh: Leuven-Binaries

50. Eclipsing Binaries Animation Tsevi Mazeh: Leuven-Binaries