Finding Other Earths. Jason H. Steffen. Asset Earth Waubonsee Community College October 1, 2009

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Transcription:

Finding Other Earths Jason H. Steffen Asset Earth Waubonsee Community College October 1, 2009

True Earth Analog Necessities: 1) Main Sequence Star 2) Within the Stellar Habitable Zone 3) Roughly Earth Mass and Size

True Earth Analog Necessities: 1) Main Sequence Star 2) Within the Stellar Habitable Zone 3) Roughly Earth Mass and Size Niceties: 1) 2) 3) 4) 5) 6) Nearly Circular Orbit Jupiter-like Planet Large Moon Plate Tectonics Galactic Habitable Zone Single Star

Non-main Sequence Stars White Dwarf Stars Giant Stars Neutron Stars

Stellar Habitable Zone Water boils Hot star Sun-like star Cool star Water is a liquid Water freezes

Earth Mass and Earth Size Planets 320x Earth mass 11x Earth diameter 15x Earth mass 4x Earth diameter 0.82x Earth mass 0.95x Earth diameter 0.11x Earth mass 0.53x Earth diameter 0.012x Earth mass 0.27x Earth diameter Note: Moons orbiting gas giants in the habitable zone are fair game.

Planetary Orbits Stars and planets both orbit about their mutual center of mass.

Planetary Orbits Orbits are elliptical with the center of mass at one focus. Major axis Focus The average distance from the planet to the focus is equal to half of the major axis (semimajor axis).

Planetary Orbits The eccentricity of an orbit gives the flattening of the ellipse. Eccentricity = 0 (circle) Eccentricity = 0.2 Eccentricity = 0.4 Eccentricity = 0.7

Planetary Orbits PLANET Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune a 0.39 0.72 1.00 1.52 5.20 9.54 19.2 30.1 e 0.206 0.007 0.017 0.093 0.048 0.054 0.047 0.009

Planetary Orbits PLANET Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune a 0.39 0.72 1.00 1.52 5.20 9.54 19.2 30.1 e 0.206 0.007 0.017 0.093 0.048 0.054 0.047 0.009 51 Peg 16 Cyg B 0.052 1.68 0.01 0.69

Planetary Orbits PLANET Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune a 0.39 0.72 1.00 1.52 5.20 9.54 19.2 30.1 e 0.206 0.007 0.017 0.093 0.048 0.054 0.047 0.009 51 Peg 16 Cyg B 0.052 1.68 0.01 0.69 51 Peg Mercury Earth 16 Cyg B

Planet Detection Techniques 1) Pulse Timing 2) Gravitational lensing 3) Astrometry 4) Direct Imaging 5) Radial Velocity (Doppler) 6) Transits

Pulse Timing Technique

Pulse Timing Technique These aren't the planets you're looking for.

Gravitational Lensing Technique

Gravitational Lensing Technique Currently, the only way to get a galaxy-wide census of planets. These are planets that you can't see orbiting stars that you can't see.

Direct Imaging Technique

Direct Imaging Technique Fomalhaut b Mass: ~1 Jupiter Period: ~1000 years Orbit Dist: ~10B miles Ecc: ~0.1

Direct Imaging Technique Fomalhaut b Mass: ~1 Jupiter Period: ~1000 years Orbit Dist: ~10B miles Ecc: ~0.1 Contrast Ratio: State of the art = 1e-5 1 part per 100,000 To see Earth = 1e-11 1 part per 100,000,000,000

Astrometric Technique

Astrometric Technique

Astrometric Technique

Astrometric Technique VB 10b Mass: ~5 Jupiters Period: 271 Days Orbit Dist: ~0.36 AU

Astrometric Technique Jupiter State of the art Gaia SIM Earth

Radial Velocity Technique

Radial Velocity Technique Wavelength is compressed: blueshift Wavelength is expanded: redshift Wavelength is unchanged

The Radial Velocity Technique Spectrum measured in a laboratory Spectrum of a star This spectrum has been redshifted. The star is moving away from the observer

Radial Velocity Technique

Radial Velocity Technique You can only measure radial velocities along the line of sight. This system looks identical to this system.

Radial Velocity Technique HD 80606 Period: 111 days Eccentricity: 0.934 Recently found to transit

Radial Velocity Technique GJ 876 Two planets with very Strong mutual interactions

Radial Velocity Technique 55 Cnc 5 planets with orbits between 3 days and 14 years and masses between 10 Earths and 3 Jupiters.

Radial Velocity Technique GJ 581 Two planets near the habitable zone

Radial Velocity Technique GJ 581 Two planets near the habitable zone

Radial Velocity Technique Jupiter State of the art Laser Comb Earth

Planet Transit Technique Transit of Venus (courtesy of David Cortner)

Radial Velocity Measurements

Radial Velocity Measurements Keck Telescope Mirror

Planet Transit Technique

Planet Transit Technique

Planet Transit Technique CoRoT-7b Period: 0.85 days Mass: ~5 Earths CoRoT-7c Period: 4.5 days Mass: 8.4 Earths

Planet Transit Technique HD 189733b Period: 2.2 days Mass: 1.1 Jupiters Secondary eclipse Phase variations

Planet Transit Technique

Planet Transit Technique The Rossiter-McLaughlin effect for rotating stars Approaching side is blueshifted Receding side is redshifted

Planet Transit Technique The Rossiter-McLaughlin effect for rotating stars Approaching side is blueshifted Receding side is redshifted A planet on this side causes an apparent redshift. A planet on this side causes an apparent blueshift.

Planet Transit Technique The Rossiter-McLaughlin effect for rotating stars Transits along different trajectories give different signatures.

Planet Transit Technique RM effect for HD 209458 RM effect for WASP 17

Planet Transit Technique

Planet Transit Technique Jupiter: need 1 part per 1000. Earth: need 1 part per 100,000. More on this in a moment.

Census of the Planets 374 Total Planets 347 from Radial Velocity alone (includes transiting planets) 62 known transiting planets 39 multiple planet systems At least one planet detected from each of the six methods

Census of the Planets

Census of the Planets Three-day pileup

Census of the Planets The solar system stops here

Census of the Planets The brown dwarf desert

Finding Other Earths Jupiter: need 1 part per 1000. Earth: need 1 part per 100,000.

Finding Other Earths Sunspots Neptune Solar variability Earth

Finding Other Earths

Finding Other Earths

Finding Other Earths Kepler mirror: 0.95m

Finding Other Earths 42 CCD chips 95 million pixels Continuously monitor ~150,000 target stars Images are de-focused Only target pixels are sent back to Earth

Finding Other Earths

Finding Other Earths March 6, 2009

Finding Other Earths

Finding Other Earths First light image

Finding Other Earths

Finding Other Earths First Kepler science results Kepler is working as planned.

Finding Other Earths Kepler is slated to run for 3.5 years with a possible extension to 7 years. Kepler is the first instrument capable of detecting a true Earth analog. Kepler has met expectations for its performance, expect results soon.

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