Title: Extra-Solar Planets
1Searching for Alien Worlds
2Methods of Searching for Alien Planets
- Pulsar Timing
- Astrometry
- Radial Velocity
- Transits
- Lensing
- Imaging
3Wobbling Stars
Planets cause stars to wobble. There are 3 ways
to detect the wobbling of stars caused by
planets pulsar timing, astrometry, and radial
velocity.
4Pulsar Timing
Some neutron stars beam light along their
magnetic poles.
5Pulsar Timing
If the searchlight points towards earth, we see
a pulsar. The timing of a pulsars light is
normally extremely regular and precise.
But if a planet orbits the pulsar, the pulsar
wobbles back and forth, which causes the time
between pulses to change. So we can search for
planets around pulsars by checking whether their
pulses occur at irregular intervals.
Pulsar timing demo
6Pulsar Timing
- In 1994, Penn State Prof. Alex Wolzczan
discovered the first planet outside the solar
system through timing of a pulsar. This pulsar
has 3 small planets with masses of 0.02, 4.3, and
3.9 M? (M?mass of Earth). These planets probably
formed after the supernova explosion from the
debris that was left behind.
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8Astrometry Radial Velocity
In addition to pulsar timing, there are 2 other
methods of detecting planets through the wobbles
they induce in their stars. We can see the star
physically wobbling on the sky (astrometry), or
we can detect the stars wobble via the Doppler
effect as it moves towards us and away from us
during the wobbling (radial velocity).
astrometry
radial velocity
9Astrometry
If one observed the Sun from a distance of 10 pc,
its the size of its wobble on the sky (due
mostly to Jupiter and Saturn) would be less than
0.002?. In comparison, because of blurring by
the atmosphere, stars have sizes of about 1? on
the sky.
It is very difficult to measure such small
wobbles from the ground, so no planets have been
discovered with astrometry, but future space
telescopes should be more successful.
Astrometry demo
0.001 arcsec
10Radial Velocity
As the star wobbles back and forth due to the
orbit of an unseen planet, its velocity relative
to us changes slightly. So planets can be
detected by measuring the change in a stars
velocity over time with the Doppler effect.
Doppler shift demo
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12Radial Velocity
If you plot the velocity of a star over a long
period of time, and find that the velocity
changes regularly, youve found a planet.
13Radial Velocity
- The first planet around a Sun-like star (51 Peg)
was discovered via radial velocity monitoring in
1995.
- The data imply the presence of a planet with
- - a roughly circular orbit
- - a distance of 0.052 A.U.
- - a mass of 0.46 MJup Its like a very hot
Jupiter!
14Radial velocity monitoring has been the most
successful method of finding planets, discovering
more than 400 planets so far. For more than 40
stars, multiple planets have been discovered.
15Planets around Sun-like stars
Large planets
10 of stars have gas giant planets in their
inner solar system.
Current detection limit for radial velocity
Hard to detect planets that are far from their
stars or have small masses
Small planets
Large orbits
Small orbits
16Searching for Earth-like planets
- Larger planets produce faster wobbles in the
stars that they orbit, which are easier to
detect. Most of the planets discovered outside
the solar system are gas giants that are unlikely
to harbor life. Smaller, rocky planets like Earth
induce only very slow wobbles in their stars,
which are very hard to detect.
17Searching for Earth-like planets
- The smallest planet found so far has a mass of
about 2 Earth masses. A 5 Earth mass planet
appears to be near the edge-on of the habitable
zone, so it could have liquid water on its
surface. The next step is to search for evidence
of life on this planet (e.g., oxygen in its
atmosphere), but the necessary technology
probably wont be available for another 20 years.
18Transits
If a planets orbit happens to be perfectly
edge-on from our point of view, it will pass
directly between us and its star. When this
happens, the light from the star will decrease
very slightly (less than 1). About 60 planets
have been found by watching stars to see if they
dim periodically in this way.
Since stars are so far away, they appear as only
points of light. As a result, we cannot see the
planet moving across the face of the star as
shown in this movie. We only detect the dimming
of the total light from the star.
19Gravitational Lensing
If a star/planet moves exactly in front of a
background star, the brightness of the background
star can be greatly magnified by the
gravitational lens effect.
20Gravitational Lensing
In principle, the gravitational lens technique
can detect planets of any mass. However, once
the event is over, the planet is lost (since we
are only seeing the background source). It is
impossible to learn anything more about the
planet.
21Gravitational Lensing 8 planets found
Large planets
Small planets
Large orbits
Small orbits
22Amazing Amateurs
Auckland Observatory (0.4-meter) Bronberg
Observatory (0.4-meter ) Catino Austral
Observatory (0.4-meter) CTIO (1.3-meter) Farm
Cove Observatory (0.4-meter) Hunters Hill
Observatory (0.4-meter) MDM Observatory,
(2.4-meter) Mt Lemmon Observatory
(1.0-meter) Palomar Observatory (60-inch) Perth
(0.3-meter) Southern Stars Observatory
(0.3-meter) Vintage Lane Observatory
(0.4-meter) Wise Observatory (1.0-meter)
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24It just shows that you can be a mother, you can
work full-time, and you can still go out there
and find planets. -Jenny
McCormick Farm Cove Observatory
25Ground-based image of a star
26Image with Hubble Space Telescope
27Image with Hubble Space Telescope
12 Jupiter masses
200 AU
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31120 AU
3 Jupiter masses
32http//planetquest.jpl.nasa.gov/index.cfm
33mass
age