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The timeline series includes a compilation of artist's concepts depicting milestones from the Kepler mission—NASA's first mission capable of detecting Earth-size planets around sun-like stars. Milestones include launch of the space telescope, the first transiting planetary system, the smallest planet with both radius and mass measurements, the first six-planet system, the first double-star planet, the smallest planet in the habitable zone of a star similar to our sun.
Image credit: NASA Ames Research Center/W. Stenzel
The timeline series includes a compilation of artist's concepts depicting milestones from the Kepler mission—NASA's first mission capable of detecting Earth-size planets around sun-like stars. Milestones include launch of the space telescope, the first transiting planetary system, the smallest planet with both radius and mass measurements, the first six-planet system, the first double-star planet, the smallest planet in the habitable zone of a star similar to our sun.
Image credit: NASA Ames Research Center/W. Stenzel
NASA is marking two milestones in the search for planets like Earth --
the successful completion of the Kepler Space Telescope's 3 1/2- year
prime mission and the beginning of an extended mission that could last
as long as four years.
Scientists have used Kepler data to identify more than 2,300 planet candidates and confirm more than 100 planets – teaching us that the galaxy is teeming with planetary systems, that planets are prolific, and hints that nature makes small planets efficiently.
So far, hundreds of Earth-size planet candidates have been found as well as candidates that orbit in the habitable zone, the region in a planetary system where liquid water might exist on the surface of a planet. None of the candidates is exactly like Earth. With the completion of the prime mission, Kepler has now collected enough data to begin finding true sun-Earth analogs -- Earth-size planets with a one-year orbit around stars similar to the sun.
"The initial discoveries of the Kepler mission indicate that at least a third of the stars have planets and that the number of planets in our galaxy must number in the billions," said William Borucki, Kepler principal investigator at NASA's Ames Research Center in Moffett Field, Calif. "The planets of greatest interest are other Earths and these could already be in the data awaiting analysis. Kepler’s most exciting results are yet to come!"
NASA's Kepler Space Telescope searches for planet candidates orbiting distant suns, or exoplanets, by continuously measuring the brightness of more than 150,000 stars. When a planet candidate passes, or transits, in front of the star from the spacecraft's vantage point, light from the star is blocked. Different sized planets block different amounts of starlight. The amount of starlight blocked by a planet reveals its size relative to its star.
Kepler was launched March 6, 2009. Its mission was to survey a portion of the galaxy to determine what fraction of stars might harbor potentially habitable, Earth-sized planets. Planets orbiting in or near habitable zones are of particular interest.
Kepler began the search for small worlds like our own on May 12, 2009, after two months of commissioning. Within months, five exoplanets, known as hot Jupiters because of their enormous size and orbits close to their stars, were confirmed.
Kepler's exquisitely precise photometer, or light sensor, is designed to detect minute changes in brightness, to indicate an Earth-size planet. For a remote observer, Earth transiting the sun would dim its light by only 84 parts per million. That is less than 1/100th of one percent, or the equivalent of the amount of light blocked by a gnat crawling across a car’s headlight viewed from several miles away.
Transit data are rich with information. By measuring the depth of the dip in brightness and knowing the size of the star, scientists can determine the size or radius of the planet. The time the planet takes to orbit can be determined by measuring the elapsed time between transits. Once the period is known, Kepler's Third Law of Planetary Motion can be applied to determine the average distance of the planet from its star. Using this distance, and the temperature and size of the star, scientists can determine if the planet is in the habitable zone.
Results from Kepler data continue to expand our understanding of planets and planetary systems. Highlights from the prime mission include:
Scientists have used Kepler data to identify more than 2,300 planet candidates and confirm more than 100 planets – teaching us that the galaxy is teeming with planetary systems, that planets are prolific, and hints that nature makes small planets efficiently.
So far, hundreds of Earth-size planet candidates have been found as well as candidates that orbit in the habitable zone, the region in a planetary system where liquid water might exist on the surface of a planet. None of the candidates is exactly like Earth. With the completion of the prime mission, Kepler has now collected enough data to begin finding true sun-Earth analogs -- Earth-size planets with a one-year orbit around stars similar to the sun.
"The initial discoveries of the Kepler mission indicate that at least a third of the stars have planets and that the number of planets in our galaxy must number in the billions," said William Borucki, Kepler principal investigator at NASA's Ames Research Center in Moffett Field, Calif. "The planets of greatest interest are other Earths and these could already be in the data awaiting analysis. Kepler’s most exciting results are yet to come!"
NASA's Kepler Space Telescope searches for planet candidates orbiting distant suns, or exoplanets, by continuously measuring the brightness of more than 150,000 stars. When a planet candidate passes, or transits, in front of the star from the spacecraft's vantage point, light from the star is blocked. Different sized planets block different amounts of starlight. The amount of starlight blocked by a planet reveals its size relative to its star.
Kepler was launched March 6, 2009. Its mission was to survey a portion of the galaxy to determine what fraction of stars might harbor potentially habitable, Earth-sized planets. Planets orbiting in or near habitable zones are of particular interest.
Kepler began the search for small worlds like our own on May 12, 2009, after two months of commissioning. Within months, five exoplanets, known as hot Jupiters because of their enormous size and orbits close to their stars, were confirmed.
Kepler's exquisitely precise photometer, or light sensor, is designed to detect minute changes in brightness, to indicate an Earth-size planet. For a remote observer, Earth transiting the sun would dim its light by only 84 parts per million. That is less than 1/100th of one percent, or the equivalent of the amount of light blocked by a gnat crawling across a car’s headlight viewed from several miles away.
Transit data are rich with information. By measuring the depth of the dip in brightness and knowing the size of the star, scientists can determine the size or radius of the planet. The time the planet takes to orbit can be determined by measuring the elapsed time between transits. Once the period is known, Kepler's Third Law of Planetary Motion can be applied to determine the average distance of the planet from its star. Using this distance, and the temperature and size of the star, scientists can determine if the planet is in the habitable zone.
Results from Kepler data continue to expand our understanding of planets and planetary systems. Highlights from the prime mission include:
- In August 2010, scientists confirmed the discovery of the first planetary system with more than one planet transiting the same star. The Kepler-9 system opened the door allowing the measurement of gravitational interactions between planets as observed by the variations in their transit timing. This powerful new technique enables astronomers, in many cases, to calculate the mass of planets directly from Kepler data, without the need of follow-up ground-based observations.
- In January 2011, the Kepler team announced the discovery of the first unquestionably rocky planet outside the solar system. Measuring 1.4 times the size of Earth, Kepler-10b is the smallest confirmed planet with both a radius and mass measurement. Results from Kepler data have continued to uncover smaller and smaller planets, some nearly the size of Mars, and tell us that small rocky worlds may be common in the galaxy.
- In February 2011, scientists announced it had found a very crowded and compact planetary system- a star with multiple transiting planets. Kepler-11 has six planets larger than Earth, all orbiting closer to their star than Venus orbits the sun. This and other subsequently identified compact multi-planet systems have orbital spacing relative to their host sun and neighboring planets unlike anything envisioned prior to the mission.
- In September 2011, Kepler data confirmed the existence of a world with a double sunset like the one famously portrayed in the film Star Wars more than 35 years ago. The discovery of Kepler-16b made what once was the realm of science fiction, science fact. Since then, the discoveries of six additional worlds orbiting double stars further demonstrate that planets can form and persist in the environs of a double-star system.
- In December 2011, Kepler announced the mission's first planet in the habitable zone. At approximately 2.4 times the size of Earth, Kepler-22b is the smallest radius planet yet found to orbit a sun-like star in the habitable zone. This discovery confirmed that we are getting continually closer to finding planets like our own.
- In February 2012, the Kepler team announced more than 1,000 new transiting planet candidates for a cumulative total of 2,321. The data continues the trend toward identifying smaller planets at longer orbital periods, similar to Earth. The results include hundreds of planetary systems– stars with multiple transiting planet candidates.
- Recently, citizen scientists participating in Planets Hunters, a Yale-led program that enlists the public to comb through Kepler data for signs of transiting planets, made their first planet discovery. The joint effort of amateur astronomers and scientists led to the first reported case of a planet orbiting a double-star that, in turn, are orbited by a second distant pair of stars.
"Kepler's bounty of new planet discoveries, many quite different from
anything found previously, will continue to astound. But to me, the most
wonderful discovery of the mission has not been individual planets, but
the systems of two, three, even six planets crowded close to their
stars, and, like the planets orbiting about our sun, moving in nearly
the same plane," said Jack Lissauer, planetary scientist at Ames. "Like
people, planets interact with and can be greatly affected by their
neighbors. What are the neighborhoods of Earth-size exoplanets like?
This is the question that I most hope Kepler will answer in the years to
come."
In April 2012, NASA awarded Kepler an extended mission, through as late as 2016. More time will enable the continued search for worlds like our own -- worlds that are not too far and too close to their sun.
"The Earth isn't unique, nor the center of the universe. The diversity of other worlds is greater than depicted in all the science fiction novels and movies," said Geoff Marcy, professor of astronomy at the University of California, Berkeley. "Aristotle would be proud of us for answering some of the most profound philosophical questions about our place in the universe."
Ames manages Kepler's ground system development, mission operations and science data analysis. NASA's Jet Propulsion Laboratory in Pasadena, Calif., managed the Kepler mission development.
Ball Aerospace & Technologies Corp. in Boulder, Colo., developed the Kepler flight system and supports mission operations with the Laboratory for Atmospheric and Space Physics at the University of Colorado in Boulder.
The Space Telescope Science Institute in Baltimore archives, hosts and distributes Kepler science data. Kepler is NASA's 10th Discovery Mission and funded by NASA's Science Mission Directorate at the agency's headquarters in Washington.
For more information about the Kepler mission, visit: http://www.nasa.gov/kepler
In April 2012, NASA awarded Kepler an extended mission, through as late as 2016. More time will enable the continued search for worlds like our own -- worlds that are not too far and too close to their sun.
"The Earth isn't unique, nor the center of the universe. The diversity of other worlds is greater than depicted in all the science fiction novels and movies," said Geoff Marcy, professor of astronomy at the University of California, Berkeley. "Aristotle would be proud of us for answering some of the most profound philosophical questions about our place in the universe."
Ames manages Kepler's ground system development, mission operations and science data analysis. NASA's Jet Propulsion Laboratory in Pasadena, Calif., managed the Kepler mission development.
Ball Aerospace & Technologies Corp. in Boulder, Colo., developed the Kepler flight system and supports mission operations with the Laboratory for Atmospheric and Space Physics at the University of Colorado in Boulder.
The Space Telescope Science Institute in Baltimore archives, hosts and distributes Kepler science data. Kepler is NASA's 10th Discovery Mission and funded by NASA's Science Mission Directorate at the agency's headquarters in Washington.
For more information about the Kepler mission, visit: http://www.nasa.gov/kepler
Michele Johnson
Ames Research Center, Moffett Field, Calif.
650-604-6982
650-604-6982
NASA
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.om
ayabaca@yahoo.com
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