Exoplanets

Exploring the universe

Trappist One a whole planetary system with Earth twins


In the constellation, Aquarius 39 light years away is one of the most important exoplanets system discovered so far, Trappist one. The solar system has not just one earth-like planet but seven and four of them are in the habitable zone of the star.

The discovery was announced on 22 February 2017. The planets were detected using the transit method as they pass in front of their sun it is possible to measure a recurring decrease in sunlight over time. The planets are very small and the star is bright so it is a very tiny amount of light we are talking about. The scientist was using very advanced instruments to make the discovery. Spitzer Space Telescope and the Very Large Telescope was amongst the telescopes used. The light is filtered around the atmosphere of the planet and the molecules will make the light shift in color. That will give information about the composition of the planets. 
Trappist one is a very small brown dwarf just slightly larger than Jupiter but much more massive. The planetary system could also in size be compared with the moon system of Jupiter. The planets are very close to each other. All the planets are orbiting closer there sun than Mercurius and the planets will sometime look larger than the moon and the sky of their neighbor planet. Perhaps aliens of Trappist 1 d is colonizing Trappist 1 e if they have the same technology in space travel like us. 
As the planets are rotating near its sun there are in a tidally locked orbit with one face pointing toward the sun all the time. It is daylight all the time on one side and night all the time on the other. 

The gravitational interaction between the planets is significant. On the time the first planet complete eight revolutions around the sun the second complete five, and the third three, and the fourth two. Their orbits are resonant 

Trappist-1b is in the same size of earth but is very similar to Venus with a very thick atmosphere and it is very hot at the surface.

Trappist-1c the heaviest planet in the system and is also very similar to Venus. It is a rocky planet with a thick atmosphere and too hot for life.

Trappist-1d is the planet that has the largest ESI value amongst the exoplanets. The planet has also a high SPH index, which means that it likely to have vegetation. The planet has a thin atmosphere. It could be enough to keep the climate stable as the planet not rotating around its axis. The planet has about 250 times more water than earth.

Trappist-1e is also very similar to earth it could have liquid water. The zone between day and night is suitable for life. If the planet has enough atmosphere a larger part of the planet can be habitable. 

Trappist-1f same size as the earth but not as dense. The planet has much water but in a gaseous state. The planet is likely not habitable.

Trappist-1g both radius and mass similar to earth and a stable climate. Water has been detected. The planet is cooler than earth but could be habitable.

Trappist-1h the smallest planet in the system with a size between mars and earth. Could contain water and has a temperature similar to the south pole. The planet is outside the habitable zone of the star.
 

Visit the system here TRAPPIST-1

TRAPPIST-1 f TRAPPIST-1 e TRAPPIST-1 g TRAPPIST-1 d

Very Large Telescopes and Extremely Large Telescopes


Just now the in the Atacama desert, on the top of the mountain Cerro Armazones, north Chile. A new generation of land-based optical telescopes is being built. 
It is built by the European Southern Observatory ESO that is a European astronomic organization with several telescopes already located on the southern hemisphere.
In north Chile they already have this generation optical telescopes in operation called Very Large Telescopes VLT. The new generation telescopes will be operational in 2024 and it is called Extremely Large Telescopes ELT. Astronomers imagination is not the best when it comes to the naming of their gadgets, but rest assured that these gadgets will live up to their name.

So how much better will ELT be than VLT? 
Will we be able to make new discoveries about the universe?
Will we be able to find new Earth-like exoplanets with these telescopes?

VLT consist of four large telescopes width a diameter of 8.2 meters. The telescopes are located in a formation. They can work both independently and together. The total mirror surface has a diameter of a 16-meter telescope when they are coordinated. VLT is the largest Telescopes on earth.
Some important discoveries made by VLT telescopes so far has been: 

  • The largest star ever R136A1 about 165000 light years away. It is over twice the size the scientists thought a star could have 
  • For the first time revealed the effects predicted by Einstein's general relativity on the motion of a star passing closed to a black hole.
  • That the young universe was much bluer than it is today and had fewer stars, 
  • First direct image of an exoplanet. A five times Jupiter size planet orbiting a brown dwarf
  • Earth-like planet in our closed star system Proxima Centauri b
  • The discovery of TRAPPIST 1 system 
  • The atmosphere around a super-Earth exoplanet called GJ 1214b, was analyzed mostly gaseous water 

ELT image credit:
ESO/L. Calçada

ELT is an optical reflector telescope. The primary mirror will be 39.3 m in diameter composed of 798 hexagonal segments. The mirror will have a light absorption area of 978 m². Above this huge reflector, there is also a 4.2-meter diameter secondary mirror.

ELT will be much larger than VLT, it will gather 13 times more light. ELT will be able to correct for atmospheric distortions. The telescope will be able to take from earth 16 times sharper images than the Hubble Telescope that is in space.
Consider the impressive resume of VLT and Hubble we will have many existing reports about discoveries when ELT gets fully operational. 
The main task of ELT will be to look for an exoplanet. By measurements of the wobbling movements, stars show because planets orbit around them, but also take direct images of large Jovians. Perhaps it will be possible for the telescope to characterize the atmospheres of the planets, and to take direct images of planets of Earth's size.
 

Read more at ESO

Proxima Cen b TRAPPIST-1 f TRAPPIST-1 e TRAPPIST-1 g TRAPPIST-1 d GJ 1214 b

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