Kepler-16b was the Kepler telescope’s first discovery of a planet in a “circumbinary” orbit– circling two stars, as opposed to one star in a double-star system. Like Luke Skywalker's home planet Tatooine, Kepler-16b would have two sunsets if you could stand on its surface. 09.15.11 - This artist's concept illustrates Kepler-16b, the first planet known to definitively orbit two stars - what's called a circumbinary planet. The planet, which can be seen in the foreground, was discovered by NASA's Kepler mission. The two orbiting stars regularly eclipse each other, as.
By Dr. Franck Marchis, SETI Institute
Kepler-16 is another great discovery coming from the Kepler telescope, the 10th NASA Discovery mission which is devoted to finding Earth-size exoplanets by monitoring variations of brightness due to transit. Today the Kepler team found a circumbinary exoplanet, an exoplanet orbiting a binary star system. Did they find Tatooine?
Image credit: NASA/JPL-Caltech/T. Pyle
In the large 105 deg2 field of view of the Kepler spacecraft, ~156,000 stars are being almost continuously observed by the 0.95m telescope. In 2010, the star number KIC 12644769 of the Kepler Input Catalog quickly got the attention of the Kepler team when they realized that it was an eclipsing binary star system, one of 1,879 detected after 44 days of operation. Binary stars, or pairs of stars orbiting around their center of mass, are common in our galaxy. It is now thought that 30% of stars are part of multiple systems. So the discovery of an eclipsing binary system is interesting but not such a big deal, until something else appeared around this late-K and M-dwarf star system. 2bthird grade james tes. In a second catalog published in March 2011 and available on arXiv, the Kepler team gave a hint of their discovery. They mentioned the detection of a secondary event with a smaller intensity (<2%), suggesting that a sub-stellar object (aka an exoplanet) could be orbiting this binary system located 200 light-years from us.
Today an article published in Science reports the discovery of a Saturn-size (0.75 x RJupiter) planet orbiting this binary star system. A team led by Laurance Doyle, a researcher at the SETI Institute, shows that Kepler captured 3 revolutions of this exoplanet around the close-binary star system, meaning that 6 transits (3 per star) were recorded. After carefully inspecting the timing of these attenuations, they realized that the observed deviation of approximately 1 minute is due to the gravitational attraction of a third body less massive than Jupiter.
The masses, sizes and orbital elements of the binary star system (Kepler-16 A & B) and its exoplanet, named Kepler-16 (AB)-b (or b), were determined by developing a dynamical model able to fit the length and depth of the Kepler transit as well as additional radial-velocity observations recorded with the Tillinghast 1.5m telescope on Mt. Hopkins, Arizona. The two binary stars of the system, which are smaller and less massive than our Sun (0.69 & 0.20 x Msun for Kepler-16 A & B respectively), revolve around their center of mass at 0.22 AU. The binary system has a significantly eccentric orbit (e~0.16) with a period of 41.1 days. The exoplanet, Kepler-16 (AB)-b, has a circular orbit with a radius of 0.7 AU (the distance of Venus-Sun), also around the center of mass of the binary star system, in 229 days. Its mass (0.33 MJupiter), radius (0.75x RJupiter), and density (0.964 g/cc) are well constrained as well.
Top view diagram of the Kepler-16 system. The orbits of the Kepler-16 components are shown in gray curves. The sizes of the bodies are in current proportions to one another, but on a scale 20 times larger that the orbital scale.
There is no equivalent in our solar system of such a large and dense exoplanet. Kepler-16b has the same size as Saturn but a higher density, suggesting that it could be made of a core of ice/rock (half its size) surrounded by an atmosphere in a configuration similar to Saturn but with a larger core. So this is not Tatooine, the mythical planet of the Star Wars movies, since it has no 'surface' where Luke Skywalker or some carbon-based lifeform equivalent could trek. But you can imagine that the view from the exoplanet, or from one of its moons, would be striking since you would see a large orange star (Dang~1 deg so twice the apparent size of our Sun with a peak temperature at 0.65 um) and a smaller (Dang~ 20 arcmin, so smaller than our Sun) and fainter red star companion orbiting around each other in 41 days. Quite often, you would have two sunsets and two sunrises per day. Could it be any more romantic?
Hymnal (us, 1982)music for your church services. Star wars the force unleashed free downloadmultiprogramem. Without knowing much about the planet's atmosphere, it is not possible to know its temperature, but the authors of the article estimated that it would be a cold world with a maximum temperature of ~200 K (-73° C, -100° F). This would not be very adequate for life forms as we know them in our solar system. But the real point of this discovery is that exoplanets around multiple systems, or circumbinary exoplanets, do exist.
The components of the ternary system Kepler-16 in transit. The late-K star (large and orange) and M-dwarf star (reddish and smaller) and the exoplanet (dark) are shown to their relative size at the time of a transit. Sunspot activity on Kepler-16A was indeed detected by Kepler. Image credit: NASA/JPL-Caltech/R. Hurt
It has been already suggested that CM Draconis, an eclipsing binary composed of two red dwarf stars, could have a large exoplanet, more massive than Jupiter, at 5 AU due to small timing variations in the eclipses. Anomalies in the orbital period of the eclipsing binary HW Vir were also explained by the presence of sub-stellar companions (19 and 8 x MJupiter) around the binary stars.
However, this new work has revealed, without a doubt, the existence of an exoplanet around a binary star system. Due to the unprecedented quality of the Kepler data, it has been possible to characterize both the stars and the exoplanet and determine their masses.
This is just a beginning. How this system, which is made of extremely coplanar objects, formed and evolved due to mutual perturbations will definitely get a lot of attention from observers and modelers alike. If you are an astronomer living in China or Russia, you should be able to photometrically observe one of the planetary transits on June 28, 2012. The Kepler team was indeed lucky to catch these planetary transits since the current orbital model predicts that they will cease to be visible from Earth in 2014 & 2018 for Kepler 16B and Kepler 16A respectively.
I discussed the results with my SETI Institute colleague Laurance Doyle, who was obviously excited by this discovery. On his office board, I could see a long list of KOI targets and some interesting diagrams showing different kind of multiple systems. He mentioned to me that Kepler has captured more of those circumbinary, or even circumternary, exoplanets. Kepler-16 gave them the opportunity to better understand the signal that they should expect from those systems, refining their search algorithm by looking for specific signatures such as a shift in the timing. So we should be ready for more of these planets around multiple stars, and they will force us to reinvent scenarios to explain the formation of planetary systems.
The authors finish the Science paper by mentioning that Kepler-16 'is a treasure for both exoplanetary and stellar astrophysical investigations.' I will add that it is also a challenge for our imagination and our research. This is a great time for astronomy, and students who are now thinking of joining us in this quest for life beyond Earth should realize how lucky they are to witness the post-Kepler astronomy era.
Clear skies,
Franck
Animation: Three Eclipsing Bodies
Animation: A Dance of Two Suns and One Planet
Additional reading from the SETI Institute:
First Planet Orbiting Two Stars Discovered by the NASA Kepler Spacecraft, by Laurance Doyle
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Device Overview
| Name/Version: | KEPLER-16- Rhythmic Performance Sequencer 1.0 |
| Author: | audioutlaw |
| Description: | Kepler-16 ‘s visual interface sports a logical design and an intuitive approach to sequencing, featuring custom rhythms, key and scale restrictions, clip import, midi follow and 3 re-trigger modes. Combine that with easy integration with Ableton Push, and you’ve got a hands-on performance tool that feels natural and provides several unique capabilities. The circles in the center represent the 16 Steps of the sequence, where you can adjust the notes and velocities for each step. The color-coded bars below them show the rhythmic pattern that will be used. In the top section, you’ll find the rate control, along with other global controls, for velocity and sustain. You can use the swing knob to adjust the rhythm automatically, or you can manually adjust the relative position of the notes in the sequence by clicking and dragging the color bars. The ability to change the note-lengths dynamically opens up a lot of rhythmic possibilities, making live sets more fluid… Below the color bars you can find the long red length bar. Adjust this to any size to change the length of the sequence. Kepler also includes a Midi-clip import feature, allowing you to use MIDI from the piano roll in your sequence. You can then change it to a new key, speed or rhythm, on the fly. Key and scale restrictions are also available, which can automatically transpose your melody to a new chord or key, as you play your controller. Kepler-16 is available free from IsotonikStuidios.com for a limited time only! |
Device Details
| Tags | sequencer |
| Live Version Used: | 9.2 |
| Max Version Used: | 7.0.4 |
| Date Added: | Oct 18 2015 09:39:03 |
| Date Last Updated: | Not updated yet |
| Device Type: | midi_device |
| Download URL (report link) | http://isotonikstudios.com/audio-outlaw/kepler-16/ |
| License (more info): | None |
Comments
| Cannot remove device. Causes Live to crash. Also shutting down Live with Kepler on a track causes a crash. |
Kepler 1625b
| Sorry to hear that! We've been notified of the problem-- so far it has been an issue specifically with Mac users. with older versions of Max. Ableton is working on the issue, and we'll send out and update as soon as it's resolved. Until then you may be able to resolve the issue by updating Max. Thanks for downloading! |
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