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Lecture 14: Searching for planets orbiting other stars III: Using Spectra 1.The Spectra of Stars and Planets 2.The Doppler Effect and its uses 3.Using.

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Presentation on theme: "Lecture 14: Searching for planets orbiting other stars III: Using Spectra 1.The Spectra of Stars and Planets 2.The Doppler Effect and its uses 3.Using."— Presentation transcript:

1 Lecture 14: Searching for planets orbiting other stars III: Using Spectra 1.The Spectra of Stars and Planets 2.The Doppler Effect and its uses 3.Using spectroscopy to measure orbits and masses of exoplanets

2 NASA Messenger space probe enters into orbit around Mercury

3 NASA Messenger around Mercury: First Image

4

5 Using Spectra for Remote Sensing Measuring spectral lines in the spectrum

6 Using Spectra for Remote Sensing Forming spectral lines in the spectrum

7 Venus in Front of the Sun

8 The Sun in One Spectral Line

9 Using Spectra for Remote Sensing Forming spectral lines in the spectrum

10 Direct Detection of Planets The best case to-date of a planet-like system detected in infrared light:

11 Indirect methods of planet detection Newton’s law of universal gravitation

12 The Astrometric method Binary stars - Sirius A & B.

13 The Astrometric method Not successful in planet discovery yet.

14 The Doppler shift method Doppler shift is measured from the spectral lines of two stars in a binary system:

15 Using Spectra for Remote Sensing Measuring spectral lines in the spectrum

16 The Doppler shift What is a Doppler shift ? - true for all waves.

17 The Doppler shift Doppler shift is measured from the spectral lines:

18

19 Mass: Radial velocities seen in star HD 209458 - the variation is due to a planet that is less massive than Jupiter. (Mazeh et al. 1999; Marcy et al. 2000)

20 Mass: For HD 209458b: M p sin(i) = M s v s P / 2  a p = const. x ( M s / 1.1M Sun ) M jup + 0.018 + 0.1 Transit light curve helps derive the orbit inclination: i = 86 o.7 + 0.2 Both M p and R p determined to better than 5%!

21 Mass: Radial velocities seen in star HD 168443 - they are due to 2 planets, each larger than our Jupiter. (Marcy & Butler 2002; Mayor et al. 2002)

22 The Spectra of Planets Mars

23 Main points to take home: 1) Visible light: form of electromagnetic energy (radiation) to which our eyes are sensitive. 2) Spectrum: the amount of light of any given wavelength, emitted or reflected by an object. 3) Thermal spectrum: a simple spectrum that depends only on the object’s temperature. 4) Spectral lines: in emission or absorption; every atom and molecule has a specific set.

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