Planet X: the ninth planet in the solar system? Astronomer: the ninth planet has completed the census of the planets of the solar system A new planet in the solar system has been discovered.
A new planet has been discovered in the solar system. This discovery was made by the astrophysicist of the California Technical University Konstantin Batygin. The author of the sensation admits that no one was specifically looking for the ninth planet. The discovery, which is destined to become the main thing in astronomy for two and a half centuries, as often happens, was made by accident.
The strange anomaly that led scientists to the discovery of the ninth planet
Konstantin was approached by his colleague, an astronomer from California, Michael Brown. He asked the astrophysicist to make calculations that would explain why some objects in the solar system behave in a strange way. It was about the Kuiper belt. This is the region farthest from the Sun. There is space debris left after: small asteroids, blocks of ice, star dust. It is from there that many comets come from that plow our system. Astronomers around the world have been following the Kuiper belt very closely for a long time, but only now an important discovery has been made.
If you examine the Kuiper belt, then this is a field of icy debris outside the orbit of Neptune. Most of them walk in very eccentric and elongated orbits, conditionally randomly oriented in space. But if you concentrate on the most distant orbits, those that are farthest away from the Sun at , you can see that they are all oriented in approximately the same direction and lie in approximately the same plane. It was this orbital alignment that seemed anomalous to scientists.
It was this anomaly that Konstantin Batygin was asked to explain from a mathematical point of view. The astrophysicist suggested that objects in the Kuiper belt are guided by an unknown large cosmic body. This gave astronomers their first clue in centuries. The atlas of the solar system, familiar to everyone, is incomplete. There must be another planet, and it's gigantic.
According to the new model, the ninth planet has a mass equal to ten or twenty Earth masses, that is, it is comparable in principle to Uranus and Neptune. Knowing only the mass, it is impossible to accurately judge its composition. However, one can compare it with other planets and assume that the ninth planet was formed from the same materials as other planets with a similar mass.
After analyzing the data on the mass and size of the ninth planet, Konstantin Batygin suggested that, most likely, this is a gas giant, exactly the same as Uranus and Neptune.
Sumerian reference to the ninth planet
The mention that in the solar system there is a planet with an irregular orbit, different from all the others, is found among the ancient Sumerians. It was called Nibiru. The planet Nibiru, judging by the legends of the Sumerians, entered the solar system at a fairly high speed. She moved along an elongated epileptic orbit, moving away from the Sun at a considerable distance, then returning. The circulation period was 3600 years. So it follows from the chronicle of the Sumerians.
Sumerian history is carved on clay tablets that are almost 6,000 years old. It follows from them that once, on the territory of Mesopotamia, a highly developed civilization suddenly arose. The Sumerians had very detailed knowledge of the cosmos. They believed that Nibiru was not a lifeless planet. It was inhabited by creatures similar to people - the Anunnaki. They arrived on Earth to. According to one version, the aliens needed the precious metal to save their planet, which was rapidly losing its atmosphere. Gold was crushed, turning it into virtually dust, and this allowed heat and light to linger on Nibiru, preserving the conditions for life.
For hundreds of thousands of years, the Anunnaki developed the deposits on their own, but then, as the Sumerian chronicles tell, there was an uprising of workers. The work was too hard. I had to. But the anthropoid apes that then lived on the planet were too primitive even for such work. According to myths, the Anunnaki went to. By mixing the DNA of earthlings and their own, they got a completely new look. They created more so that a person could do more difficult work than a monkey.
On Sumerian clay tablets, this process is depicted as two snakes intertwined. This symbol is very reminiscent of, and maybe this Sumerian myth explains one of the biggest historical mysteries. Why still can not find an intermediate link between the monkey and modern man. If you believe the ancients, then it simply cannot be. and ape are actually genetically distant from each other.
After all, even on our own planet, we find life in the most unexpected places and types. In the ocean at a depth of thousands of meters live creatures that can withstand tremendous pressure. And recently, scientists from Princeton University discovered that underground, at a depth of almost three kilometers, life is teeming. Bacteria live there, which use uranium ore as. If we record such amazing phenomena on earth, then what can we say about deep space? On the ninth planet? There, for example, it does not have to be an atmosphere, or it can be liquid, or so dense that the pressure there will exceed all conceivable limits.
When it comes to, first of all, we mean intelligent life. Who said that all beings in the universe, endowed with intelligence, must necessarily be like us?
Our science under the word life understands only the protein-nucleic form, the main "highlight" in which is the cell. If this cell does not exist, then there is no life. But it is another matter if by life we understand something else. For example, Tsiolkovsky spoke about a radiant person. What it is? Reasonable, consisting of some kind of energy formations?
Perhaps someday we will be able to unravel these amazing mysteries of the universe, or perhaps we will never be allowed to do this ...
Scientists at the California Institute of Technology announced the discovery. So far, no one has seen a new object through a telescope. According to Michael Brown and Konstantin Batygin, the planet was discovered by analyzing data on the gravitational perturbation it exerts on other celestial bodies. The name has not yet been given to her, but scientists have been able to determine various parameters. It weighs 10 times more than the Earth. The chemical composition of the new planet resembles two gas giants - Uranus and Neptune. By the way, it is similar to Neptune in its size, and is even further from the sun than Pluto, which, due to its modest size, has lost its status as a planet. Confirmation of the existence of a celestial body will take five years. Scientists have booked time at a Japanese observatory in Hawaii. The probability that their discovery is wrong is 0.007 percent. The new planet, if the discovery is recognized, will be the ninth in the solar system.
The solar system appears to have a new ninth planet. Today, two scientists announced evidence that a body nearly the size of Neptune-but as yet unseen-orbits the sun every 15,000 years. During the solar system's infancy 4.5 billion years ago, they say, the giant planet was knocked out of the planet-forming region near the sun. Slowed down by gas, the planet settled into a distant elliptical orbit, where it still lurks today.
The claim is the strongest yet in the centuries-long search for a "Planet X" beyond Neptune. The quest has been plagued by far-fetched claims and even outright quackery. But the new evidence comes from a pair of respected planetary scientists, Konstantin Batygin and Mike Brown of the California Institute of Technology (Caltech) in Pasadena, who prepared for the inevitable skepticism with detailed analyzes of the orbits of other distant objects and months of computer simulations. “If you say, ‘We have evidence for Planet X,’ almost any astronomer will say, ‘This again? These guys are clearly crazy.’ I would, too,” Brown says. Why is this different? This is different because this time we're right."
LANCE HAYASHIDA/CALTECH
Outside scientists say their calculations stack up and express a mixture of caution and excitement about the result. “I could not imagine a bigger deal if-and of course that’s a boldface ‘if’-if it turns out to be right,” says Gregory Laughlin, a planetary scientist at the University of California (UC), Santa Cruz. "What's thrilling about it is detectable."
Batygin and Brown inferred its presence from the peculiar clustering of six previously known objects that orbit beyond Neptune. They say there's only a 0.007% chance, or about one in 15,000, that the clustering could be a coincidence. Instead, they say, a planet with the mass of 10 Earths has shepherded the six objects into their strange elliptical orbits, tilted out of the plane of the solar system.
The orbit of the inferred planet is similarly tilted, as well as stretched to distances that will explode previous conceptions of the solar system. Its closest approach to the sun is seven times farther than Neptune, or 200 astronomical units (AUs). (An AU is the distance between Earth and the sun, about 150 million kilometers.) And Planet X could roam as far as 600 to 1200 AU, well beyond the Kuiper belt, the region of small icy worlds that begins at Neptune's edge about 30 AU.
If Planet X is out there, Brown and Batygin say, astronomers ought to find more objects in telltale orbits, shaped by the pull of the hidden giant. But Brown knows that no one will really believe in the discovery until Planet X itself appears within a telescope viewfinder. "Until there's a direct detection, it's a hypothesis-even a potentially very good hypothesis," he says. The team has time on the one large telescope in Hawaii that is suited for the search, and they hope other astronomers will join in the hunt.
Batygin and Brown published the result today in The Astronomical Journal. Alessandro Morbidelli, a planetary dynamicist at the Nice Observatory in France, performed the peer review for the paper. In a statement, he says Batygin and Brown made a "very solid argument" and that he is "quite convinced by the existence of a distant planet."
Championing a new ninth planet is an ironic role for Brown; he is better known as a planet slayer. His 2005 discovery of Eris, a remote icy world nearly the same size as Pluto, revealed that what was seen as the outermost planet was just one of many worlds in the Kuiper belt. Astronomers promptly reclassified Pluto as a dwarf planet-a saga Brown recounted in his book How I Killed Pluto.
Now, he has joined the centuries-old search for new planets. His method-inferring the existence of Planet X from its ghostly gravitational effects-has a respectable track record. In 1846, for example, the French mathematician Urbain Le Verrier predicted the existence of a giant planet from irregularities in the orbit of Uranus. Astronomers at the Berlin Observatory found the new planet, Neptune, where it was supposed to be, sparking a media sensation.
Remaining hiccups in Uranus's orbit led scientists to think that there might yet be one more planet, and in 1906 Percival Lowell, a wealthy tycoon, began the search for what he called "Planet X" at his new observatory in Flagstaff, Arizona. In 1930, Pluto turned up-but it was far too small to tug meaningfully on Uranus. More than half a century later, new calculations based on measurements by the Voyager spacecraft revealed that the orbits of Uranus and Neptune were just fine on their own: No Planet X was needed.
Yet the allure of Planet X persisted. In the 1980s, for example, the researchers proposed that an unseen brown dwarf star could cause periodic extinctions on Earth by triggering fusillades of comets. In the 1990s, scientists invoked a Jupiter-sized planet at the solar system's edge to explain the origin of certain oddball comets. Just last month, researchers claimed to have detected the faint microwave glow of an outsized rocky planet some 300 AU away, using an array of telescope dishes in Chile called the Atacama Large Millimeter Array (ALMA). (Brown was one of many skeptics, noting that ALMA's narrow field of view made the chances of finding such an object vanishingly slim.)
Brown got his first inkling of his current quarry in 2003, when he led a team that found Sedna, an object a bit smaller than both Eris and Pluto. Sedna's odd, far-flung orbit made it the most distant known object in the solar system at the time. Its perihelion, or closest point to the sun, lay at 76 AU, beyond the Kuiper belt and far outside the influence of Neptune's gravity. The implication was clear: Something massive, well beyond Neptune, must have pulled Sedna into its distant orbit.
(DATA)JPL; BATYGIN AND BROWN/CALTECH; (DIAGRAM) A. CUADRA/ SCIENCE
That something didn't have to be a planet. Sedna’s gravitational nudge could have come from a passing star, or from one of the many other stellar nurseries that surrounded the nascent sun at the time of the solar system’s formation.
Since then, a handful of other icy objects have turned up in similar orbits. By combining Sedna with five other weirdos, Brown says he has ruled out stars as the unseen influence: Only a planet could explain such strange orbits. Of his three major discoveries-Eris, Sedna, and now, potentially, Planet X-Brown says the last is the most sensational. Killing Pluto was fun. Finding Sedna was scientifically interesting,” he says. "But this one, this is head and shoulders above everything else."
Brown and Batygin were nearly beaten to the punch. For years, Sedna was a lone clue to a perturbation from beyond Neptune. Then, in 2014, Scott Sheppard and Chad Trujillo (a former graduate student of Brown’s) published a paper describing the discovery of VP113, another object that never comes close to the sun. Sheppard, of the Carnegie Institution for Science in Washington, D.C., and Trujillo, of the Gemini Observatory in Hawaii, were well aware of the implications. They began to examine the orbits of the two objects along with 10 other oddballs. They noticed that, at perihelion, all came very near the plane of solar system in which Earth orbits, called the ecliptic. In a paper, Sheppard and Trujillo pointed out the peculiar clumping and raised the possibility that a distant large planet had herded the objects near the ecliptic. But they didn't press the result any further.
Later that year, at Caltech, Batygin and Brown began discussing the results. Plotting the orbits of the distant objects, Batygin says, they realized that the pattern that Sheppard and Trujillo had noticed "was only half of the story." Not only were the objects near the ecliptic at perihelia, but their perihelia were physically clustered in space (see diagram, above).
For the next year, the duo secretly discussed the pattern and what it meant. It was an easy relationship, and their skills complemented each other. Batygin, a 29-year-old whiz kid computer modeler, went to college at UC Santa Cruz for the beach and the chance to play in a rock band. But he made his mark there by modeling the fate of the solar system over billions of years, showing that, in rare cases, it was unstable: Mercury may plunge into the sun or collide with Venus. "It was an amazing accomplishment for an undergraduate," says Laughlin, who worked with him at the time.
Brown, 50, is the observational astronomer, with a flair for dramatic discoveries and the confidence to match. He wears shorts and sandals to work, puts his feet up on his desk, and has a breeziness that masks intensity and ambition. He has a program all set to sift for Planet X in data from a major telescope the moment they become publicly available later this year.
Their offices are a few doors down from each other. "My couch is nicer, so we tend to talk more in my office," Batygin says. "We tend to look more at data in Mike's." They even became exercise buddies, and discussed their ideas while waiting to get in the water at a Los Angeles, California, triathlon in the spring of 2015.
First, they winnowed the dozen objects studied by Sheppard and Trujillo to the six most distant-discovered by six different surveys on six different telescopes. That made it less likely that the clumping might be due to an observation bias such as pointing a telescope at a particular part of the sky.
Batygin began seeding his solar system models with Planet X’s of various sizes and orbits, to see which version best explained the objects’ paths. Some of the computer runs took months. A favored size for Planet X emerged-between five and 15 Earth masses-as well as a preferred orbit: antialigned in space from the six small objects, so that its perihelion is in the same direction as the six objects' aphelion, or farthest point from the sun. The orbits of the six cross that of Planet X, but not when the big bully is nearby and could disrupt them. The final epiphany came 2 months ago, when Batygin's simulations showed that Planet X should also sculpt the orbits of objects that swoop into the solar system from above and below, nearly orthogonal to the ecliptic. "It sparked this memory," Brown says. "I've seen these objects before." It turns out that, since 2002, five of these highly inclined Kuiper belt objects have been discovered, and their origins are largely unexplained. "Not only are they there, but they are in exactly the places we predicted," Brown says. "That is when I realized that this is not just an interesting and good idea-this is actually real."
Sheppard, who with Trujillo had also suspected an unseen planet, says Batygin and Brown “took our result to the next level. …They got deep into the dynamics, something that Chad and I aren’t really good with. That's why I think this is exciting."
Others, like planetary scientist Dave Jewitt, who discovered the Kuiper belt, are more cautious. The 0.007% chance that the clustering of the six objects is coincidental gives the planet claim a statistical significance of 3.8 sigma-beyond the 3-sigma threshold typically required to be taken seriously, but short of the 5 sigma that is sometimes used in fields like particle physics. That worries Jewitt, who has seen plenty of 3-sigma results disappear before. By reducing the dozen objects examined by Sheppard and Trujillo to six for their analysis, Batygin and Brown weakened their claim, he says. "I worry that the finding of a single new object that is not in the group would destroy the whole edifice," says Jewitt, who is at UC Los Angeles. "It's a game of sticks with only six sticks."
(IMAGES) WIKIMEDIA COMMONS; NASA/JPL-CALTECH; A. CUADRA/ SCIENCE ; NASA/JHUAPL/SWRI; (DIAGRAM) A. CUADRA/ SCIENCE
At first blush, another potential problem comes from NASA’s Widefield Infrared Survey Explorer (WISE), a satellite that completed an all-sky survey looking for the heat of brown dwarfs-or giant planets. It ruled out the existence of a Saturn-or-larger planet as far out as 10,000 AU, according to a 2013 study by Kevin Luhman, an astronomer at Pennsylvania State University, University Park. But Luhman notes that if Planet X is Neptune-sized or smaller, as Batygin and Brown say, WISE would have missed it. He says there is a slim chance of detection in another WISE data set at longer wavelengths-sensitive to cooler radiation-which was collected for 20% of the sky. Luhman is now analyzing those data.
Even if Batygin and Brown can convince other astronomers that Planet X exists, they face another challenge: explaining how it ended up so far from the sun. At such distances, the protoplanetary disk of dust and gas was likely to have been too thin to fuel planet growth. And even if Planet X did get a foothold as a planetesimal, it would have moved too slowly in its vast, lazy orbit to hoover up enough material to become a giant.
Instead, Batygin and Brown propose that Planet X formed much closer to the sun, alongside Jupiter, Saturn, Uranus, and Neptune. Computer models have shown that the early solar system was a tumultuous billiards table, with dozens or even hundreds of planetary building blocks the size of Earth bouncing around. Another embryonic giant planet could easily have formed there, only to be booted outward by a gravitational kick from another gas giant.
It’s harder to explain why Planet X didn’t either loop back around to where it started or leave the solar system entirely. But Batygin says that residual gas in the protoplanetary disk might have exerted enough drag to slow the planet just enough for it to settle into a distant orbit and remain in the solar system. That could have happened if the ejection took place when the solar system was between 3 million and 10 million years old, he says, before all the gas in the disk was lost into space.
Hal Levison, a planetary dynamicist at the Southwest Research Institute in Boulder, Colorado, agrees that something has to be creating the orbital alignment Batygin and Brown have detected. But he says the origin story they have developed for Planet X and their special pleading for a gas-slowed ejection add up to "a low-probability event." Other researchers are more positive. The proposed scenario is plausible, Laughlin says. "Usually things like this are wrong, but I'm really excited about this one," he says. "It's better than a coin flip."
All this means that Planet X will remain in limbo until it is actually found.
Astronomers have some good ideas about where to look, but spotting the new planet won't be easy. Because objects in highly elliptical orbits move fastest when they are close to the sun, Planet X spends very little time at 200 AU. And if it were there right now, Brown says, it would be so bright that astronomers probably would have already spotted it.
Instead, Planet X is likely to spend most of its time near aphelion, slowly trotting along at distances between 600 and 1200 AU. Most telescopes capable of seeing a dim object at such distances, such as the Hubble Space Telescope or the 10-meter Keck telescopes in Hawaii, have extremely tiny fields of view. It would be like looking for a needle in a haystack by peering through a drinking straw.
One telescope can help: Subaru, an 8-meter telescope in Hawaii that is owned by Japan. It has enough light-gathering area to detect such a faint object, coupled with a huge field of view-75 times larger than that of a Keck telescope. That allows astronomers to scan large swaths of the sky each night. Batygin and Brown are using Subaru to look for Planet X-and they are coordinating their efforts with their erstwhile competitors, Sheppard and Trujillo, who have also joined the hunt with Subaru. Brown says it will take about 5 years for the two teams to search most of the area where Planet X could be lurking.
Subaru Telescope, NAOJ
If the search pans out, what should the new member of the sun's family be called? Brown says it's too early to worry about that and scrupulously avoids offering up suggestions. For now, he and Batygin are calling it Planet Nine (and, for the past year, informally, Planet Phattie-1990s slang for "cool"). Brown notes that neither Uranus nor Neptune-the two planets discovered in modern times-ended up being named by their discoverers, and he thinks that that's probably a good thing. It's bigger than any one person, he says: "It's kind of like finding a new continent on Earth."
He is sure, however, that Planet X-unlike Pluto-deserves to be called a planet. Something the size of Neptune in the solar system? Don't even ask. "No one would argue this one, not even me."
Society, 05 Sep 2017, 22:52
Flying high: the best pictures from the Voyager spacecraft 40 years ago, as part of the American NASA project, Voyager 1 was launched into space - the first device that flew beyond solar systems. Since 1998, Voyager has been the furthest artificial object from Earth - its real-time location is available on the NASA website. The best pictures taken from the station are in the RBC photo gallery Anna Kim Astronomers have discovered a new dwarf planet in the solar system ...discovered a new dwarf planet, which became the third farthest object solar systems. The planet, indexed 2014 UZ224, was described by the Minor Planet Center... with a diameter of approximately 530 km. For comparison: the diameter of the largest dwarf solar systems- Pluto - is 2600 km, and the diameter of its largest satellite Charon ... Scientists have discovered the closest potentially habitable planet to Earth ... a study according to which the star Proxima Centauri, closest to our solar system, there is a planet that could potentially be habitable According to ... the closest planet outside solar systems that will ever be found, because there is no star closer to solar system than this one,” said the presenter... Scientists discover first tailless comet ... allow scientists to answer questions related to formation and evolution solar systems writes Reuters. A comet called C/2014 S3 is different from... . Most comets are made of ice and form elsewhere solar systems. Presumably, after the birth of C / 2014 S3 was thrown into the cloud ... in solar system. Now scientists are trying to figure out how many more "Manx comets" are in space. C/2014 S3 was opened using automatic systems ... Scientists admit the existence of the ninth planet in the solar system ... their work has been published in the Astronomical Journal. Scientists have found that in solar system there may be another planet, the mass of which is ten times ... the sun's planet solar systems- Neptune. "A large area of our solar systems will remain unexplored,” said one of the participants in the study, astronomer Michael Brown. planets in solar system 8 left... NASA has published a color video from the other end of the solar system ... NASA released a color video from the other end solar systems. Recorded from the New Horizons probe over Pluto. “But ... perhaps they didn’t expect: he recorded the first frames from the edge of our solar systems", - the message says. LORRI cameras were used to record the video...”, the message says. Pluto Through Stained Glass: Video from the Edge solar systems In July 2015, NASA released the first images of Pluto's surface... Titanium propylenes: raw material for plastic found on Saturn's moon ... , this is the first time a plastic raw material has been found at any site solar systems apart from the earth. . The presence of this component in the lower part of Titan's atmosphere... fuel. On the satellite of Saturn, they are formed due to the fact that solar light contributes to the breakdown of methane (the second largest component in the atmosphere ... Scientists: Voyager has finally left the solar system ... the Voyager 1 probe, launched by NASA in 1977, finally left the limits solar systems. It is reported by The Daily Tech. . To this conclusion, the researchers ... 2013, however, this was not enough to go beyond our solar systems: satellite hit transition zone, called "heliopause", which is the last ... -1 "- an automatic probe weighing 723 kilograms. Was launched for research solar systems and its environs on September 5, 1977. He was the first space... NASA caught the solar system by the tail: it is shaped like a clover ... there is a slowdown sunny wind. "Explorer of interstellar boundaries" IBEX (Interstellar Boundary Explorer) is a US research satellite designed to study the territory solar systems and interstellar space. It was launched in October 2008. and a year later discovered an inexplicable high-energy radiation at the edge solar systems.Society, 20 Mar 2013, 00:00
Mankind has gone beyond the solar system for the first time ... people, for the first time went beyond solar systems. Reported by the American Geophysical Union. . Evidence of exit solar systems are the characteristics of hydrogen and helium obtained... still a zone outside solar systems. Voyager 1 is an automatic probe weighing 723 kilograms. Launched for research solar systems and its environs on September 5... interplanetary station MESSENGER discovers ice in Mercury's craters ... there are "pockets" at its poles, into which it almost never gets solar light. Scientists have suggested the presence of water at the poles of Mercury ... the orbit of Mercury. This planet is one of the most difficult objects to reach. solar systems: in order to move from near-Earth to near-Mercurian orbit, you need to extinguish a significant ... NASA managed to see how a black hole tore apart a star the size of the Sun ...torn apart. Astrophysicists were able to fix the phenomenon only because Solar system accidentally got in the way of the flow of energy produced by the flash. "Death ... The world's first nanosatellite will look for extraterrestrial life in space ... possible signs of life on so-called exoplanets beyond solar systems. This is reported by the British media. . They are working on the creation of the ExoPlanetSat satellite ... years ago and designed to search for planets. ExoPlanetSat running on solar batteries, will shoot a star at the moment when in front of her ... Future Astronautics Predictions: Mars Colonization and Star Wars ... forever in its cradle on Earth, but will settle throughout solar system. The launch of the satellite and the first steps in space exploration assured ... the Moon, Venus, Mars, the moons of Jupiter and even went beyond solar systems, met with aliens and managed to take part in star wars. The main thing ... to hope for a meeting with living beings of unearthly origin within solar systems unrealistic, but humanity wanted to believe that Mars is inhabited. Indeed, after...Society, 03 Feb 2011, 11:58
Astronomers discover Earth-like planets ... Earth-like planets in other solar systems. Planets roughly the size of our Earth are located in system, consisting of a star and six planets ... the shapes of the orbits of these planets; estimate the number of planets in multistellar systems. The mission of the device will last for about two more years. The north pole of the moon is the coldest place in the solar system The coldest place in solar system, the temperature of which has ever been measured by a spacecraft, found on ... , "temperature conditions on the Moon are among the most extreme in all solar system"." At the height of the day, the temperature at the [lunar] equator can rise to ... at the poles, due to this, there is a slight shift in the angle of incidence solar rays - by about three degrees during the year. "And this...Society, 14 Sep 2009, 16:20
Scientists: There may be thousands of planets in the galaxy "for life" ... scientists. According to staff at University College London, outside of our solar systems there may be thousands of moon-like planets on which existence is possible ... colleagues have managed to find a new way to detect planets beyond our solar systems- the so-called exoplanets. Scientists have been recently engaged in the search for exoplanets, actively competing ... Australian scientists arranged SMS-correspondence with aliens ... Gliese 581d is the closest Earth-like planet beyond solar systems. The expected delivery time is approximately 20 years, and there is no ... planet," said Hello from Earth project spokesman Wilson de Silva. System space SMS-mail was developed in preparation for the National...Society, 06 Feb 2009, 11:03
The scientist counted the number of extraterrestrial civilizations ... the University of Edinburgh. Thanks to the fact that in last years outside solar systems more than 330 planets were discovered, scientists were able to compile a more accurate one ... on ours, built solar systems, based on our knowledge of the so-called exoplanets - planets that are outside our solar systems. He then applied... NASA explores the boundaries of the solar system ... into space, a spacecraft designed to find out what is happening at the borders solar systems, according to the Associated Press. The Ibex apparatus (short for "Explorer of interstellar boundaries .... At the point of collision of interstellar matter and sunny wind passes the boundary, which is called the heliopause. She is the one who protects solar system from cosmic radiation. Region ... in 1977. and their main goal was to study other planets solar systems. However, unlike Voyager, Ibex will not leave the limits ...Society, 06 Sep 2008, 15:04
NASA sponsors search for extraterrestrial life NASA Announces Fellowship to Find Planets Beyond solar systems(exoplanets) and traces of life on them, reports Reuters. . In the announcement... a star comparable to the Sun. Since 1994 astronomers have discovered outside solar systems already more than 300 planets, most of which are unsuitable for maintenance ... The smallest planet in the solar system has become even smaller Observational data from the Messenger spacecraft showed the smallest planet solar systems, Mercury, has become even smaller, reports the BBC. . Photo analysis, ... these elements were knocked out of the surface of the planet sunny wind - a stream of charged particles that bombards solar system. Mercury is the closest planet to... Meteorite will tell about the emergence of life on Earth ... a rare meteorite with which scientists hope to understand how Solar system reports the BBC. . The Natural History Museum in London acquired from ... a rare meteorite, with the help of which scientists expect to understand how Solar system reports the BBC. Meteorite "Ivuna" weighing 705 grams fell ... Tanzania. "Ivuna" consists of the same substances from which it was formed Solar system 4.5 billion years ago. Of the 35,000 known meteorites... The planet Pluto has gained a new status ... . This is what Pluto, previously considered the ninth planet, will now be called. solar systems reports the BBC. . Almost two years have passed since ... our solar system there could be more than 50 planets. To prevent this, the members of the IAU made the historic decision to consider that in solar system ... , located even further from the Sun in the Kuiper belt at the boundaries solar systems. According to tradition, the celestial bodies of this belt receive mythological names. Committee... Fastest spinning object in space discovered An amateur astronomer from the UK has discovered the fastest rotating astronomical object in solar system, reports the BBC. According to Richard Miles, the author of the discovery...Astronomers have discovered a mini-copy of the solar system At a distance of 5 thousand light years from our solar systems astronomers have discovered a star that is half the size of the Sun, and ... from a friend exactly two times smaller than in our system, i.e. researchers speak of almost complete proportionality. Observation of this stellar system and the planet began back in 2006. The lens effect increased the brightness...
Society, 23 Sep 2007, 15:03
Scientists discover warm patches on icy Neptune Scientists have found that on Neptune, one of the coldest planets solar systems, where the average air temperature is 320 degrees below zero according to ... the Sun, lasts 165 Earth years. Neptune gets 1/900 part sunny Water found on a planet outside the solar system ... that life exists not only on Earth. . On a planet outside solar systems found water. Scientists from the US National Aeronautics Administration Center... and Uranus. This is the second time water has been discovered on the planet outside solar systems, reports the BBC. Prior to this, American scientists found signs ... scientists hope that on other, "colder" planets beyond solar systems conditions could have developed similar to those that allowed life to arise on ... Astronomers have discovered a planet suitable for life ... an exoplanet (that is, a celestial body orbiting a star outside solar NASA will send Dawn into space to study asteroids ... NASA has decided to resume the program to study the two largest asteroids solar systems- Ceres and Vesta. Previously, preparations for the flight of the Dawn apparatus were suspended ... it is believed that the asteroids Ceres and Vesta formed in different parts solar systems about 4.5 billion years ago, and their study will help ... manned flights and for unmanned cargo flights. Systems ships will be built on the basis of already tested projects and technologies ... A satellite to Pluto was launched from the US spaceport ... non-flying weather.. The spacecraft's destination is the most distant planet solar systems- Pluto. The distance to it is 4.8 billion km. Like... apparently not the last planet in solar system. So, according to American scientists, they managed to discover the tenth planet in system- this statement was made by the representative ...Image copyright Reuters Image caption Michael Brown specializes in finding distant objects
Caltech scientists Michael Brown and Konstantin Batygin have provided evidence for the existence of a giant planet in the solar system, located even further from the Sun than Pluto.
The researchers reported that they have not yet been able to see it through a telescope. According to them, the planet was discovered when studying the movement of small celestial bodies in deep space.
Weight heavenly body about 10 times the mass of the Earth, but scientists have yet to verify its existence.
Institute astronomers have only a rough idea of where the planet might be in the starry sky, and no doubt their suggestion will launch a campaign to find it.
"There are many telescopes on Earth theoretically capable of finding it. I really hope that now, after our announcement, people around the world will start looking for the ninth planet," said Michael Brown.
Elliptical orbit
According to scientists, the space object is about 20 times farther from the Sun than Neptune, which is 4.5 billion km away.
Unlike the almost circular orbits of other planets in the Solar System, this object is supposed to move in an elliptical orbit, and a complete revolution around the Sun takes from 10 thousand to 20 thousand years.
Scientists have studied the movement of objects consisting mainly of ice in the Kuiper Belt. Pluto is in this belt.
The researchers noticed a certain location of some bodies in the Belt, in particular such large objects as Sedna and 2012 VP113. In their opinion, this can only be explained by the presence of an unknown large space object.
Image copyright AFP Image caption The idea of the existence of the so-called Planet X, located on the periphery of the solar system, has been discussed in scientific circles for more than 100 years."All the most distant objects move in the same direction on an inexplicable trajectory, and we realized that the only explanation for this is the existence of a large, distant planet that holds them together as they orbit the Sun," Brown said.
Planet X
The idea of the existence of the so-called Planet X, located on the periphery of the solar system, has been discussed in scientific circles for more than 100 years. She is remembered and then forgotten.
The current speculation is of particular interest because of the study's lead author.
Brown specializes in finding distant objects, and it was his discovery of the dwarf planet Eris in the Kuiper Belt in 2005 that caused Pluto to lose planetary status a year later.
Then it was assumed that Eris is slightly larger than Pluto, but now it has become clear that it is slightly smaller than it.
Researchers studying distant objects in the solar system have been speculating for some time on the possibility of a planet the size of Mars or Earth due to the size and shape of the planets in the Kuiper Belt. But until you can see the planet through a telescope, the idea of its existence will be perceived with skepticism.
The study by Michael Brown and Konstantin Batygin was published in the Astronomical Journal.
The structure of the solar system is quite simple. At its center is the Sun - a star ideal for the development of life: not too hot, but not too cold, not too bright, but not too dim, with a long lifetime and very moderate activity. Closer to the Sun are the planets of the terrestrial group, which, in addition to the Earth, includes Mercury, Venus and Mars. These planets are relatively low-mass, but are composed of stony rocks, which allows them to have a solid surface. In recent years, the concept of habitable zone is gaining popularity: this is the name for the distance interval from the central star, within which liquid water can exist on the surface of a terrestrial planet. In the solar system, the habitable zone stretches roughly from the orbit of Venus to the orbit of Mars, but only Earth can boast liquid water (at least in significant quantities).
Further from the Sun are the giant planets (Jupiter and Saturn) and the ice giants (Uranus and Neptune). The giants are significantly more massive than the terrestrial planets, but this mass is gained by them due to volatile compounds, which is why the giants are significantly less dense and lack a solid surface. Between the last planet of the terrestrial group - Mars - and the first giant planet - Jupiter - is the main asteroid belt; behind the last ice giant - Neptune - the periphery of the solar system begins. Previously, there was another planet there, Pluto, but in 2006 the world astronomical community decided that Pluto did not live up to a real planet in its parameters, and now the most distant planet in the solar system (known!) Is Neptune, orbiting 30 AU . from the Sun (more precisely, from 29.8 AU at perihelion to 30.4 AU at aphelion).
However, for quite a long time, many scientists have not left the idea that the number of planets in the solar system does not stop on Neptune. True, the farther the planet is from the Sun, the more difficult it is to detect it directly, but there are also indirect ways. One is to look for the gravitational influence of an invisible planet on the known bodies of the trans-Neptunian region. In particular, attempts have been repeatedly made, firstly, to find patterns in the orbits of long-period comets, and secondly, to explain these patterns by the attraction of a distant giant planet. In more extremist versions, the apparent periodicity in the extinction of living organisms on Earth or in the frequency of meteorite bombardment of our planet is considered a sign of the presence of a distant planet. However, until now, assumptions about unknown planets (Nemesis, Tyukhe, etc.), based on these regularities and periodicities, have not found wide recognition among the astronomical community. Not only the explanation, but the very existence of the regularities and periodicities to be explained seems rather unconvincing. In addition, as a rule, we are talking about fairly large bodies, perhaps many times more massive than Jupiter, which should be accessible to modern observational technology.
A new attempt to prove the existence of the ninth planet is also based on the search for signs of its gravitational influence, but not on long-period comets, but on Kuiper belt objects.
Kuiper belt
The Kuiper belt is sometimes collectively referred to as all the objects inhabiting the periphery of the solar system. But in fact, they are several dynamically distinct groups: the classical Kuiper belt, the scattered disk, and resonant objects. The objects of the classical Kuiper belt revolve around the Sun in orbits with small inclinations and eccentricities, that is, in orbits of the "planetary" type. Scattered disk objects move in elongated orbits with perihelia in the region of Neptune's orbit, the orbits of resonant objects (Pluto among them) are in orbital resonance with Neptune.
The classical Kuiper belt ends rather abruptly at about 50 AU. Probably, it was there that the main boundary of the distribution of matter in the solar system passed. And although objects of the scattered disk and resonant objects at aphelion (the point of the orbit of a celestial body farthest from the Sun) move away from the Sun by hundreds of astronomical units, at perihelion (the point of the orbit closest to the Sun) they are close to Neptune, indicating that both are connected common origin with the classical Kuiper belt, and were “attached” to their modern orbits by the gravitational influence of Neptune.
Discovery of Sedna
The picture began to get more complicated in 2003, when the trans-Neptunian object (TNO) Sedna was discovered with a perihelion distance of 76 AU. Such a significant distance from the Sun means that Sedna could not get into its orbit as a result of interaction with Neptune, and therefore there was an assumption that it is a representative of a more distant population of the solar system - the hypothetical Oort cloud.
For some time, Sedna was the only known object with such an orbit. The discovery of the second "sednoid" in 2014 was reported by Chadwick Trujillo and Scott Sheppard. The object 2012 VP113 revolves around the Sun in an orbit with a perihelion distance of 80.5 AU, that is, even more than that of Sedna. Trujillo and Sheppard noticed that both Sedna and 2012 VP113 have similar values of the perihelion argument - the angle between the directions to the perihelion and to the ascending node of the orbit (the point of its intersection with the ecliptic). Interestingly, similar values of the perihelion argument (340° ± 55°) are typical for all objects with semi-major axes greater than 150 AU. and with perihelion distances greater than Neptune's perihelion distance. Trujillo and Sheppard suggested that such a grouping of objects near a particular value of the perihelion argument could be caused by the disturbing action of a distant massive (several Earth masses) planet.
Evidence for Planet X
A paper published in January 2016 by Konstantin Batygin and Michael Brown of the California Institute of Technology explores the possibility that the existence of a previously unknown planet can indeed explain the observed parameters of distant asteroids with similar values of the perihelion argument. The authors analytically and numerically studied the motion of test particles at the periphery of the Solar System over 4 billion years under the influence of a perturbing body with a mass of 10 Earth masses in an elongated orbit and showed that the presence of such a body actually leads to the observed configuration of TNO orbits with significant semi-major axes and perihelion distances. Moreover, the presence of an outer planet makes it possible to explain not only the existence of Sedna and other TNOs with similar values of the perihelion argument.
Unexpectedly for the authors in their simulations, the action of the perturbing body explained the existence of another TNO population, the origin of which has so far remained unclear, namely, the population of Kuiper belt objects in orbits with high inclinations. Finally, the work of Batygin and Brown predicts the existence of objects with large perihelion distances and other values of the perihelion argument, which provides an additional observational verification of their prediction.
Prospects for the discovery of a new planet
The main test of recent research, of course, should be the discovery of the "troublemaker" itself - the very planet whose attraction, according to the authors, determines the distribution of bodies with perihelions outside the classical Kuiper belt. The task of finding it is very difficult. Planet X should spend most of the time near aphelion, which can be over 1000 AU away. from the sun. Calculations indicate the possible location of the planet very approximately - its aphelion is located approximately in the direction opposite to the direction on the aphelions of the studied TNOs, but the orbital inclination cannot be determined from the data on the available TNOs with semi-major axes of the orbits. So the review of a very large area of the sky, where an unknown planet may be located, will last for many years. The search may become easier if other TNOs moving under the influence of Planet X are discovered, which will narrow the range of possible values for its orbital parameters.
WISE (Wide-Field Infrared Survey Explorer) - NASA's space telescope, launched in 2009 to study the sky in the infrared, could not see a hypothetical planet. An analogue of Saturn or Jupiter, WISE would detect at a distance of up to 30,000 AU, that is, more than necessary. But the estimates were carried out specifically for the giant planet with the corresponding own IR radiation. It is possible that these results do not scale to an ice giant like Neptune or even a less massive planet.
There is currently, in fact, one telescope suitable for searching for Planet X, and that is the Japanese Subaru Telescope in the Hawaiian Islands. Thanks to the 8.2-meter mirror, it collects a lot of light and therefore has a high sensitivity, while its equipment allows you to take pictures of fairly large areas of the sky (approximately the area of the full moon). But even under these conditions, it will take several years to survey the vast area of the sky where Planet X may be now. If it fails, one can only hope for a specialized survey telescope LSST, which is currently under construction in Chile. With a mirror with a diameter of 8.4 meters, it will have a field of view with a diameter of 3.5 ° (seven times larger than that of the Subaru). At the same time, survey observations will be its main task, unlike Subaru, which works on numerous observational programs. The commissioning of the LSST is expected in the early 2020s.
On February 29, March 2 and 4, the PostNauka Academy on Old Arbat will host an intensive course by Vladimir Surdin "The Solar System: In Search of a Spare Planet" - 9 classes that will help you understand the diversity of planets and find out if, in addition to the Earth, there are planets suitable for life .
