Proxima C - Possible second planet found near the nearest neighbor to the Sun

Proxima-C: Possible Second Planet Found

Proxima: C – Possible second planet found near the nearest neighbor to the Sun: An international team of astronomers has detected a candidate super-Earth planet in orbit around Proxima Centauri, the closest star to the Sun.

Artist impression of the Proxima Centauri system. Proxima Centauri is a red dwarf star only 4.23 light years away in the Centaurus constellation. This small and cold star is not visible to the naked eye and is possessed by a much brighter pair, Alpha Centauri AB.

In 2016, a rocky planet was discovered in the Proxima Centauri SystemCalled Proxima B, the planet has a mass near Earth and orbits its star at an average distance of 0.05 AU with a period of 11.2 days.

It is located within the habitable zone of the star, where liquid water could theoretically exist on the surface. In 2017, astronomers using the Atacama Large Millimeter / Submillimeter Array (ALMA) matrix reported the existence of an unknown source at a distance of 1.6 AU in the system.

To understand if the ALMA signal originated on another planet, INAF-Osservatorio Astrofisico di Torino and his colleagues from Drs. Mario Demaso analyzed a series of 17-year high-precision radio-velocities using an exoplanet detection method, which tracks the light spectrum of a star.

“If this spectrum oscillates between red and blue, it indicates that the star is increasingly moving away from Earth at regular intervals, a cycle usually caused by the presence of the orbiting body.” The astronomers explained.

“We discovered that the signal is produced over a period of 1,900 days, which suggests that it is not related to cyclic changes in the star’s magnetic field. However, more evidence is needed to confirm this conclusion.”

The candidate planet has a minimum mass of 5.8 times that of the Earth, which makes it the so-called super Earth. Nicknamed Proxima C, it has an orbital period of 5.21 years and a surface temperature of minus 234 ° C (minus 389 ° F).

Professor Hugh Jones, a member of the team, said an astronomer: “The proximity of the planet and its orbit to its star is one of the best possible opportunities for direct observation of its star.” Hertfordshire University.

In the future, Proxima C may become a potential target for a more direct study by the Breakthrough Starshot Project, humanity’s first attempt to travel to another star system. The team article was published in Science Advance.

Astronomers discovered five new planets around nearby red dwarfs: Astronomers have detected five new planets, eight planetary candidates and confirmed three previously reported planets, about nine M-dwarf stars (red dwarfs).

Among the new planets, Gliese 180d and Gliese 229Ac are super-Lands located in conservative habitable areas of their host stars; Gliese 433c is a super cold Neptune candidate who belongs to populations of unexplained planets like Neptune.

The concept of an artist of the planetary system Glacey 180, located 39 light years away in the planetarium of Eridanus. Image by Robin Dynel, Carnegie Institution for ScienceThe concept of an artist of the planetary system Glacey 180, located 39 light years away in the planetarium of Eridanus.

M dwarfs are the most common star in our galaxy, the Milky Way, and the primary class of stars is known to house terrestrial planets. The first planet of land mass was found around the dwarf M Gliese 876.

M dwarfs have been the main objective of potentially habitable planets during the last decade because their habitable regions are very close to the star and, therefore, have a much shorter duration than the sun-like stars that orbit potentially planets habitable Happens

“Many planets that revolve around red dwarfs in the habitable zone are happily closed, which means that the period in which they revolve around their axes is the same as the period in which they orbit their host stars,” astronomers from the Department of Terrestrial Magnetism of the Carnegie Institution for Science.

This is similar to how our moon is locked on Earth, which means we only see one side from here. As a result, these exoplanets have very cold permanent nights on one side and very hot permanent days on the other, which is not good for the habit.

“Glisee 180D is the warmest super Earth for us, which is not closed to its star, which probably increases the possibility of being a host and sustaining life,” he said. The Glyce 180D has 7.49 times the minimum mass of the Earth and an orbital period of 106 days.

Artistic concept of Glisee 229Ac, located 18.8 light years from Earth. This is the temperate super-Earth closest to us in a system in which the host star has a brown dwarf companion. Image credit: Robin Dynel, Carnegie Institution for Science.

Artistic concept of Glisee 229Ac, located 18.8 light years from Earth. This is the temperate super-Earth closest to us in a system in which the host star has a brown dwarf companion. Image credit: Robin Dynel, Carnegie Institution for Science.

Another potentially habitable planet, Glycea 229Ac, is 7.93 times larger than Earth. It revolves around its original star once every 122 days. This is the closest temperate Earth closest to us that is in a system in which the host star has a brown dwarf companion.

In this system, the brown dwarf, Glycea 229b, was one of the first brown dwarfs to be copied. It is not known if they can accommodate exoplanets by themselves, but this planetary system is an external case study of how exoplanets form and evolve in a binary star brown dwarf system.

“Our discovery adds to the list of planets that could possibly be directly photographed by the next generation of telescopes,” said Dr. Fang. “Ultimately, we are working towards the goal of being able to determine if planets harbor life, orbiting nearby stars.”

The mass planet of Neptune Gliese 433 C is located at a distance from its star, where surface water is likely to freeze. The planet is possibly the first realistic candidate to obtain direct images of the cold Neptune.

The team detected three Gliese planets 422b, 433d and 3082b and seven planetary candidates Gliese 173b, 229Ab, 620b, 620c, 739b, 739c and 911b. Eventually we want to produce a map of all the planets, orbiting the stars closest to our own solar system.

Especially those that are potentially habitable, co-author Dr. Wants an astronomer at the observatories of the Carnegie Institution, said Jeff Crane. The findings appear in two articles in the Astrophysical Journal and Astronomical Journal series of supplements.

Alma detects molecular gas within the sphere of influence of a binary supermassive black hole. Astronomers using the Atacama Large Millimeter, Submillimeter Array (ALMA)  have mapped the molecular gas distribution in NGC 6240, a system of closely fused galaxies that simultaneously develops two supermassive black holes.

NGC 6240 as seen with the SOUL (top right) and the NASA / ESA Hubble Space Telescope (combined image on the left and zoom in the lower right). The molecular gas is blue and the black holes are red dots. The ALMA image provides the clearest view of the molecular gas around a black hole in this fused galaxy.

NGC 6240, also known as IC 4625 or UGC 10592, is a pair of fused galaxies 400 million light years away in the constellation of Ofiches. It extends for 300,000 light years and is a tall figure with branched cone, loops and tail. This disturbance of gas, dust and stars is more than an obvious resemblance to a butterfly, and perhaps less traditionally beautiful, a lobster.

To understand what is happening within NGC 6240, astronomers want to observe in detail the dust and gas that surround the two black holes, but the above images are not clear to do so. “The key to understanding this galaxy system is molecular gas,” said Dr. Ezequiel Tristor, an astronomer at the Pontia Universitat Catalisa, said.

It is the gas fuel necessary to form stars, but it also feeds supermassive black holes, which allow them to grow. Most of the gas is in a region between the supermassive black holes of NGC 6240. Less detailed observations taken earlier suggested that the gas mass may be a rotating disk.

We found no evidence of that. Instead, we see a chaotic stream of gas with filaments and bubbles between the black holes, said Dr. Traister. We still don’t know what causes these outings. Another reason to observe the molecular gas in NGC 6240 is that it helps determine the mass of a supermassive black hole.

“Previous models, based on surrounding stars, indicated that black holes were approximately one billion times larger than our Sun on a much larger scale than we expected,” said Dr. Said Anne Medling.

An astronomer at the University from Toledo. But these new images of ALMA show us for the first time how much gas has been trapped within the sphere of influence of the black hole. This mass is important, so we now estimate that the mass of the black hole is smaller.

Approximately one hundred million times the mass of our Sun. “Based on this, we believe that previous measurements of black holes in such systems can be up to 5-89%.” The gas was also closer to black holes than astronomers.

“It is located in a very extreme environment. We believe that it will eventually collapse into a black hole, or be ejected at high speed, “Dr. Medling said. In addition. Researchers have not discovered evidence of a third supermassive black hole in NGC 6240, which has recently been discovered by another team.

Dr. “We don’t see the molecular gas associated with this claim as the third core,” Treister said. “It may be a local star cluster instead of a black hole, but we need to study more to say something for sure.” Proxima Centauri, which is the sun’s closest neighbor, may host another alien planet. Meet Proxima c.

An artistic depiction of the Proxima Centauri planetary system. Pictured on the right is the newly discovered exoplanet candidate Proxima-C: which orbits a red dwarf host star once every 5.2 Earth years. The system also includes the smaller Proxima B on the left, which was confirmed in 2016 in the world. Proxima B is probably not a single child

In August 2016, astronomers announced that an exoplanet roughly the size of Earth encircles the star closest to the Sun, the red dwarf Proxima Centauri, which is only 4.2 light years away from us. (In perspective, the Milky Way galaxy’s spiral disk is about 100,000 light years.)

That world, called Proxima B, orbits Proxima Centauri the “habitable zone”, the same range of distances from a star where liquid water can freeze on the surface of the world. Therefore, there is a possibility that life as we know it has taken root in the next solar system.

(How good this possibility is, however, is still the subject of considerable debate. For example, Proxima B is tidal-locked to its host star, meaning that it has a warmer side by day and a colder side at night. Is. And at night. Red dwarfs are very active stars, such powerful whirlpools would have taken away the planet’s atmosphere long time ago.)

Proxima B: Earth’s closest planet-like discovery in pictures. Proxima B explorers analyzed “radial velocity” data collected over the years by instruments called HARPS (high radial velocity and precise planet finder) and UVES (visual and ultraviolet Echelle spectrographs) installed in telescopes powered by telescopes .

European Southern Observatory (ESO) in Chile. The scientists mentioned that Proxima Centauri was being lightly pulled by the gravity of a orbiting planet: Proxima b. The team led by Guilm Anglada-Escudé of Queen Mary University in London saw no signs of the other world circling the red dwarf at the time.

But they could not rule out that possibility. And now, a new study reports that Earth’s closest exoplanet may have a partner. The findings appear in two articles in the Astrophysical Journal and Astrophysical Journal Letters.

Proxima C: A new ‘Super Earth‘ has been discovered, but will it be viable for life? Scientists have discovered a new ‘super-Earth’ orbiting Proxima Centauri, which is the closest neighboring star to the Sun. Proxima c is believed to be nearby.

Scientists discovered a new planet x super-Earth orbiting Proxima Centauri, the closest neighbor to the Sun, which published the results in the scientific journal AdvanceProxima C is the second possibly habitable planet, although it is believed to be beyond the ice line or boundary where water exists only in frozen form.

In 2016, scientists discovered Proxima B, although the planet is much larger and closer to the Proxima Centauri Star. The new planet Proxima C is being seen as a prime candidate for ‘Super Earth’, although it is believed to be much smaller than Proxima B.

The new planet takes 5.2 Earth years to complete a revolution around the star Proxima Centauri and is far of its Sun, so it is likely to freeze. Its minimum mass is half that of Neptune, which still places it in the ‘Super Earth’ category.

Although it is still among those with less mass. However, the planet’s temperature is believed to be minus 234 degrees Celsius. In the document, scientists have stated that the Proxima-C discovery is “very important to the planet formation model.”

The reason for this is that the planet will have the longest period of time to orbit around the star and a minimal mass in the super-Earth regime, which is currently using the current radial velocity (RV) technique.

The researchers use this VR technique to detect new planets around low-mass or M-type stars. Because M-type stars have less mass, the New World monitors how these planets wobble in response to the gravitational pull of the planets that orbit them.

Proxima Centauri is a small, low-mass star, located about 4.2 light years from Earth, and is believed to be the closest star to our Sun. Super Earth are rocky planets that are larger than Earth, without a large envelope of gas around them.

According to NASA, these are super planets on Earth, which are 10 times more massive than Earth with a rocky surface. But scientists still don’t know for sure when planets lose their rocky surface.

It is also unclear whether these planets can support life in the future. A previous NASA investigation stated that Proxima B is unlikely to harbor extraterrestrial life, although it is believed to be in the habitable zone, where liquid water will remain in its stable form.

Promixa B is also orbiting the star Proxima Centauri. According to NASA, its mass is considered 1.27 Earth and it takes 11.2 days to complete a stellar orbit.

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