extrasolar planets - the university of arizonatami/sun/scheduleptys2014_files/lecture23-14.pdf ·...
TRANSCRIPT
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Extrasolar planets
Lecture 23, 4/22/14
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Extrasolar planets
• Extrasolar planets: planets around other stars
• Also called exoplanets
• 1783 exoplanets discovered as of 4/21/14
• Orbitting 1105 different stars
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3
Year of discovery Num
ber
of p
lane
ts d
isco
vere
d pe
r ye
ar
1992 first confirmed exoplanet
1989 planet not confirmed until 2002
1995 first exoplanet around a main sequence star
Over 800 discovered in 2014
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Direct detection
• Difficult because:
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Direct detection
• Difficult because: • Stars are much brighter than planets
• Stars are much bigger than planets
• What wavelength should you use to look for exoplanets?
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Direct detection • Difficult because:
• Stars are much brighter than planets
• Stars are much bigger than planets
• What wavelength should you use to look for exoplanets? • Infrared because that is where planets’ blackbody
curves peak
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Direct detection • Planets were directly imaged for the first
time in 2004
• HR8799:
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Transit method
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Transit method
Planet’s orbit needs to be edge on as seen from Earth so it passes between Earth and its star
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Transit method
Big planets close to their star are easier to detect
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Transit method • Detect planets that eclipse their star
• Used to determine a planet’s radius and orbital period
• Bias towards big planets close to their star
• Can measure the planet’s atmosphere’s ______ spectrum when light from the star passes through the planet’s atmosphere.
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How often will a transiting planet at 1 AU pass in front of the star it orbits?
A. Once a month
B. Once a year
C. There is not enough information to determine
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Kepler mission • Space telescope launched in 2009
• Stared at just one portion of the sky continuously for 4 years monitoring the brightness of 145,000 main sequence stars
• Observe at least three transits to confirm that dimming was caused by a planet and usually verify with other methods too
• Has discovered 962 planets so far
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Kepler multi-planet systems as of 11/2013:
https://www.youtube.com/watch?feature=player_embedded&v=jdVLBTtd2UY
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Radial velocity method
• Also called the Doppler method
• The force of gravity from the planet tugs on the star causing it to “wobble”
• Variations in the star’s radial velocity as it “wobbles” are detected by measuring the Doppler shift of the star’s spectral lines
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“Wobble” • The planet and the star both orbit around the
center of mass of the system
• The planet moves in a large orbit and the star moves in a small orbit. The star “wobbles”
• They are always on opposite sides of each other with the center of mass in between
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Velocities as low as 1 m/s can be detected which is approximately the speed at which humans walk
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A
B
In which case would the gravitational force on the star be greatest?
In which case would the velocity of the star be greatest?
In which case would the height of the graph for the stars velocity be tallest?
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A
B
In which case would the gravitational force on the star be greatest?
In which case would the velocity of the star be greatest?
In which case would the height of the graph for the stars velocity be tallest?
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Radial velocity method
• Variations in the star’s radial velocity as it “wobbles” are detected by measuring the Doppler shift of the star’s spectral lines
• Used to determine a planet’s mass and orbital period
• Bias towards large planets close to their star
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Is it easiest to detect a planet in an extrasolar planet system using the radial velocity method when A. A low mass star is far from a high mass planet. B. A high mass star is close to a high mass planet. C. A low mass star far from a low mass planet. D. A low mass star is close to a high mass planet.
E. A high mass star is close to a low mass planet.
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Lecture Tutorial: Motion of Extrasolar Planets (p. 125)
• Work with a partner! • Read the instructions and questions carefully. • Discuss the concepts and your answers with one
another. Take time to understand it now!!!! • Come to a consensus answer you both agree on. • If you get stuck or are not sure of your answer, ask
another group.
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Based on the diagram for the motion of an extrasolar planet and its companion star
shown below, at which location (A, B, C or D) would you expect the planet to be located when the light from the star would appear
redshifted for an Earth observer?
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Year of discovery Num
ber
of p
lane
ts d
isco
vere
d pe
r ye
ar
1992 first confirmed exoplanet
1989 planet not confirmed until 2002
1995 first exoplanet around a main sequence star
Over 800 discovered in 2014
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What type of planets have we found the most of? A. Large planets close to 5 AU (like Jupiter) B. Small planets close to 1 AU (like Earth) C. Small planets further from their stars than 5
AU D. Large planets closer than 1 AU to their star
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Mass
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Mass
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Eccentricity
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Inclination
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How could you determine if a planet was rocky like Earth or a gas giant like Jupiter? A. Using direct imaging B. Using the transit detection method C. Using the radial velocity detection method D. Using both the transit detection method
and the radial velocity method
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The habitable zone • Also sometimes called the “Goldilocks
zone”
• The region surrounding a star within which a planet with an atmosphere could have liquid water on its surface
• Calculated based on the amount of energy a planet would receive from its star
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The habitable zone • Calculated based on the amount of energy a
planet would receive from its star • Distance from the star
• Spectral type of star
• Not included in the definition…
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The habitable zone • Calculated based on the amount of energy a
planet would receive from its star • Distance from the star
• Spectral type of star
• Not included in the definition… • Green house gases!
è Guideline not a guarantee
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Kepler-186f
• Discovery announced last week
• 10% larger than Earth and in the habitable zone
è Smallest planet discovered in the habitable zone of its star so far
• Orbits a M1 star – small, cool, active
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Summary • Lots of big planets have been discovered
close to their stars
• Are their lots of Earth-like planets? Too soon to tell
• Do most solar systems look like ours? More variety than we expected, but we don’t know what’s “normal” yet