Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Next 25(?) Years Future Missions to Search for Extra-solar Planets and Life.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "The Next 25(?) Years Future Missions to Search for Extra-solar Planets and Life."— Presentation transcript:

1 The Next 25(?) Years Future Missions to Search for Extra-solar Planets and Life

2

3 The census so far As of December 3 rd : 268 extrasolar planets Almost exclusively “Hot Jupiters” in elliptical orbits: only 3 with the possibility of a habitable terrestrial planet So far, no extrasolar Earths... but we haven't really looked that hard We can see this! But we want this!

4 Limited by search size... would be the size of the United States. Our Milky Way Galaxy where we’ve found new planets would only be the size of Manhattan. And the neighborhood Our whole Solar System would be this big Imagine, if you shrunk our solar system to a little larger than a quarter: From: http://planetquest.jpl.nasa.gov/Navigator/material/sim_material.cfm

5 You can even see some of the stars that have planets in the night sky… From: http://planetquest.jpl.nasa.gov/Navigator/material/sim_material.cfm

6 …if you know where to look From: http://planetquest.jpl.nasa.gov/Navigator/material/sim_material.cfm

7 Limited by ground-based technique... Doppler “wobble” is limited by our spectral resolution (we can already see shifts of only ~100 mph) Earth's atmosphere causes stars to “twinkle” when viewed from the ground, so this limits imaging methods

8 The Goal: To find planets capable of supporting life or even find extra-solar life! Recap: We need... Larger search area New technique to find terrestrial planets in the habitable zone of their stars! It’s all about location, location, location!

9

10 The ultimate goal is to directly image an extrasolar Earth But right now we're pretty far from that. A New Technique... Prof. Close's work:

11 The Next Step COROT (ESA) Kepler (NASA)

12 Kepler: A Larger Search Area

13 Kepler Field of View 100,000 stars! Sensitive to extrasolar “Earths” around stars like our Sun 3000 light-years away

14 2/3 of systems surveyed will be binaries...

15 A New Technique Earth would lower the Sun's brightness by only 1/10,000 for up to 13 hours. We're limited by: Orientation The intrinsic variability of stars Transits (from space)

16 Orientation 12% of the time we detect Earth or Venus... we detect both of them.

17 Stellar Variability Stars vary, but on different timescales We need to see a planet transit several times to know it's real: it will take 4 transits (years) to detect an “Earth”

18 Kepler specs Will look at 100,000 stars in 4 years! 95 mega pixels!! (Your digital camera has ~ 4-5 and these CCDs need to be much higher quality) Expects to find ~ 50 Earth-like planets! Obviously depends on how many Earth-like solar systems actually form, but if they are there we WILL see them! We will see only about 0.5%!! of Earth-like planets transit in front of their stars!

19 More on Kepler http://www.bridgewater.edu/~rbowman/ISAW/Transit-1.html

20 SIM (NASA) & Darwin (ESA) 2015 ???

21 Space Interferometry specs Looks for planets by detecting the wobble of star due to planet, BUT by directly measuring the movement of the star as opposed to just looking at the change in the wavelength emitted by the star To detect Earth-size planets with this it needs and accuracy of 1 microarcsecond 1 * 10 -6 arcseconds which is like seeing a nickel at the distance of the Moon! SIM will look at the nearest ~100 stars to look for planets of ~ few Earth masses!

22 Terrestrial Planet Finder 2020 ??? Will find terrestrial size planets: by astrometry (detecting the wobble of the host star directly) also imaging them directly by coronography (meaning blocking out the light of the central star to observe fainter objects around it) TPF will survey 250 of the closest stars as a follow up for Kepler and SIM

23 So by sometime this century we will almost certainly have a real image of a terrestrial planet….. But if we find terrestrial planets how do we detect life? This is not as easy as it might sound…. We can look for things that are common in Earth’s atmosphere like Oxygen, Methane, CO 2 But Venus, Earth and even Mars look pretty similar in a spectrum…..and yet they are very different planets

24

25 After TPF? Life Finder Mission? Human manned observatory on the Moon or somewhere in space to look for signatures like chlorophyll And if we find signatures of Life Planet Imager? To get more information about a planet with life we would require a large number of telescopes working together as to give a total observing area around 350km!!

26

Download ppt "The Next 25(?) Years Future Missions to Search for Extra-solar Planets and Life."

Similar presentations

© 2005 Pearson Education Inc., publishing as Addison-Wesley Extrasolar Planets Since our Sun has a family of planets, shouldnt other stars have them as.

© 2005 Pearson Education Inc., publishing as Addison-Wesley Extrasolar Planets Since our Sun has a family of planets, shouldnt other stars have them as.
Chapter 13 Other Planetary Systems The New Science of Distant Worlds.

Chapter 13 Other Planetary Systems The New Science of Distant Worlds.
AST 111 Exoplanets II. What can we measure? Orbital period – Look at doppler shift or just watch it Orbital distance – Kepler’s 3 rd Law with orbital.

AST 111 Exoplanets II. What can we measure? Orbital period – Look at doppler shift or just watch it Orbital distance – Kepler’s 3 rd Law with orbital.
A Search for Habitable Planets 1 NASA’s first mission to detect Earth-size planets orbiting in the habitable zone of sun-like stars. Launched March 6,

A Search for Habitable Planets 1 NASA’s first mission to detect Earth-size planets orbiting in the habitable zone of sun-like stars. Launched March 6,
Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.

Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.
Life in the Universe. Conditions may be right for primitive life to exist on Mars (or existed in the past) and Europa. Possibly some complex molecules.

Life in the Universe. Conditions may be right for primitive life to exist on Mars (or existed in the past) and Europa. Possibly some complex molecules.
Somak Raychaudhury www.sr.bham.ac.uk/~somak/Y2SiU/  Two-body problem  Binary stars  Visual  Eclipsing  Spectroscopic  How to find extrasolar planets.

Somak Raychaudhury  Two-body problem  Binary stars  Visual  Eclipsing  Spectroscopic  How to find extrasolar planets.
© 2010 Pearson Education, Inc. Chapter 13 Other Planetary Systems: The New Science of Distant Worlds.

© 2010 Pearson Education, Inc. Chapter 13 Other Planetary Systems: The New Science of Distant Worlds.
Habitable Planets Astronomy 315 Professor Lee Carkner Special Topic.

Habitable Planets Astronomy 315 Professor Lee Carkner Special Topic.
Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.

Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.
Extrasolar planets Although current observations suggest that Earth-size rocky planets may be common, their abundance is quite uncertain. The information.

Extrasolar planets Although current observations suggest that Earth-size rocky planets may be common, their abundance is quite uncertain. The information.
First direct image of extrasolar planets. 10.7 billion miles.

First direct image of extrasolar planets billion miles.
Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.

Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.
Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.

Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.
Extrasolar planets. Finding planets Finding planets around other stars is hard!  need to look for something very faint very close to something that is.

Extrasolar planets. Finding planets Finding planets around other stars is hard!  need to look for something very faint very close to something that is.
Clicker Questions Chapter 4 The Solar System Copyright © 2010 Pearson Education, Inc.

Clicker Questions Chapter 4 The Solar System Copyright © 2010 Pearson Education, Inc.
3677 Life in the Universe: Extra-solar planets

3677 Life in the Universe: Extra-solar planets
Dr. Matt Burleigh 3677: Life in the Universe DEPARTMENT OF PHYSICS AND ASTRONOMY 3677 Life in the Universe Extra-solar planets: Revision Dr. Matt Burleigh.

Dr. Matt Burleigh 3677: Life in the Universe DEPARTMENT OF PHYSICS AND ASTRONOMY 3677 Life in the Universe Extra-solar planets: Revision Dr. Matt Burleigh.
Today’s APODAPOD  Begin Chapter 8 on Monday– Terrestrial Planets  Hand in homework today  Quiz on Oncourse The Sun Today A100 – Ch. 7 Extra-Solar Planets.

Today’s APODAPOD  Begin Chapter 8 on Monday– Terrestrial Planets  Hand in homework today  Quiz on Oncourse The Sun Today A100 – Ch. 7 Extra-Solar Planets.
Extrasolar Planets extrasolar = outside of (external to) our solar system.

Extrasolar Planets extrasolar = outside of (external to) our solar system.

Similar presentations

Ads by Google