Beta Pictoris: Planets? Life? Or What?

Beta Pictoris: a planet. Life or what? The last question of JARA ASTRONOMY 102 SEC 013 is whether the life on the planet is possible with the Beta Pictoris system. First, you have to ask, are there planets in the beta Pictoris system? However, if a person does not answer the most basic questions at the beginning, it is impossible to answer this question; where are the planets coming from? Are there important elements and scenarios necessary to form a planet in the Beta Pictoris system? In order to understand the origin of the planet, it is necessary to first investigate the origin of the solar system planet.

Everyone can not reliably determine whether there is a planet on the Beta Pictoris system. But this is definitely a possibility. There is a star disc around Beta Pictoris. Like a disk that once surrounded the sun, it is a very flat disk. Disk contains elements necessary for planet formation. This star is a young man. The inner area of ​​the disc is obvious. All these things point to roughly formable planets. Richard Trier of Jet Propulsion Laboratory says, "It is very difficult to form a planet without such a material (7)."

The last question: is the planet of the beta Pictoris system likely to exist? First, you have to ask, are there planets in the beta Pictoris system? But if a person does not answer the most basic questions at the beginning it is impossible to answer this question; where does the planet come from? Are there important elements and scenarios necessary to form a planet in the Beta Pictoris system? Scientists believe that newly formed stars are immediately surrounded by relatively dense gas and dust clouds. In 1965, A. "The nova is highly likely to be surrounded by this gas and dust (1)." In 1967, Davidson and Harvey agreed with Poveda and called it "Nebula". Other authors call this state "placental nebula" (1) and point out that it maintains the growth of the planet.

The team led by Jens Hoeijmakers, astronomer at the Bern University in Switzerland, gathered statues of Beta Pictoris from the Chilean super-telescope, about 63 light-years from the earth. Beta Pictoris is operated by many times the planet's mass of Jupiter's mass and is named Beta Pictoris b. Telescope observations capture the light from the Beta Pictlis system. Through a method called spectroscopy, astronomers divide this light into different wavelengths called spectra, so that the prism projects the light in rainbow. This process can reveal various characteristics related to the source including its chemical composition.