The star Wolf-Rayet 140 sends strange energy waves around the universe.

Above: Wolf-Rayet 140 with its material rings. 

There is a strange fingerprint around the star Wolf-Rayet 140. That star produces circles of shockwaves around it. Those shockwaves are visible in the James Webb-telescope images. 

The Wolf-Rayet 140 is a very hot star. Its surface temperature is about 20 000 Kelvin. And maybe that thing is the reason why that star sends those waves around the universe. The energy production in this star is very powerful. And there is the possibility that changes in energy production are more visible than in so-called "normal stars".

The Wolf-Rayet 140 is 5000 ly. away from Earth. That star is two stars that are orbiting each other. And there is the possibility that those dust rings are forming when the star that orbits the rare Wolf-Rayet star pulls material from the surface of the central star. Then that orbiting star impacts that material that increases its energy production. But there is another theory about the form of those rings. 

Every star has a cyclic sequence. When a star produces energy that energy pushes its core or surface outward. And when the pressure in the nucleus of the star decreases. Its energy production decreases. And the surface of the star starts to fall to the middle of the star. 

 So whenever a star expands because of its energy production it stops that expansion. When the surface of the star turns to fall in. That effect can cause a situation where the cloud of ions would remain over the star. And when energy production in the star's nucleus increases. That radiation pushes those ions to a longer distance. 

That thing pushes radiation to that ion layer. When radiation decreases the ions send the radiation impulse. And then that ion layer will send energy impacts to the universe. So maybe that thing would explain why Wolf-Rayet 140 sends those energy waves to the universe. 

When we are thinking about extremely hot stars like Wolf-Rayet 140. There is a theory about the form of that kind of star. In that theory, the energy that comes from the nucleus of the star, along with its gravitational field makes it possible for the extremely hot and bright star locks the electrons in its plasma to a certain position. 

That thing would be an incredible thing if it's right or true. And that thing could be possible in cases where the radiation and gravitational fields of the star are much more powerful than regular giant stars. That thing turns those electrons and atoms' nuclei into the quantum-size antennas that are driving radiation away from the star differently than in smaller and cooler stars. 

https://scitechdaily.com/webb-space-telescope-discovers-strange-cosmic-fingerprint/

https://en.wikipedia.org/wiki/Wolf%E2%80%93Rayet_star

Image: https://scitechdaily.com/webb-space-telescope-discovers-strange-cosmic-fingerprint/

James Webb-telescope detected carbon dioxide in the exoplanet's atmosphere.

Above: Artists' impression of exoplanet Wasp-39B

Exoplanet Wasp-39b has carbon dioxide in its atmosphere. That thing is one of the possible marks of the lifeforms. But there is also the possibility that oxygen is connecting to carbon in the atmosphere of Wasp-39b. The Wasp-39b is a giant exoplanet. It's so-called hot Jupiter and the atmospheric temperature of that planet is 900 degrees Celsius. That is an extremely hot planet, so there should not be any lifeforms. 

But there is one possibility that is not what somebody wants to hear. The possibility is that the carbon dioxide is coming from the high atmosphere of some invisible target near Wasp-39b. The object can be some kind of moon near Wasp-39b. There is also water (H2O) and sodium (Na) in that planet's atmosphere. 

The Wasp-39b orbits its central star in four days. The mass of the Wasp-39b is one-quarter of Jupiter. So its mass is similar to Saturn but the size is larger than Jupiter. The reason for that is that the Wasp-39B is forming of lighter elements than Jupiter. And that means it's lighter but 1,3 times bigger than Jupiter. The question is why Wasp-39b doesn't lose its atmosphere to its star G-class star Wasp-39 ("Malmok"). That star is slightly smaller than our Sun.  

The Wasp-39b orbit time around its star is 4 days. So why Wasp-39 didn't burn that planet to an interplanetary cloud? Why Wasp-39's star wind of ions doesn't blow the Wasp-39b to space? The gravitation on Wasp-39b is not so powerful that it could keep that gas giant in one piece. And Wasp-39 is not any red dwarf. It's quite similar to our sun. 

So some people say that Wasp-39 b should not even exist. Many other exoplanets are orbiting their center star in a couple of days. But those planets are orbiting red dwarfs whose surface temperature is about 3500 celsius. Wasp-39's surface temperature is about 5000-6000K (about 4726-5726 degrees Celsius) (The temperature of the Sun's photosphere is 5772K)

There is the possibility that there is another small dwarf or so-called real planet in those solar systems. Even Earth-mass rocky planets are hard to detect if their size is very small. If the earth-mass planet forms mainly of heavier elements like iron and other heavy metals that thing means that its size is smaller than Earth if its gravitation is the same as Earth. 

http://exoplanet.eu/catalog/wasp-39_b/

https://www.nasa.gov/feature/goddard/2022/nasa-s-webb-detects-carbon-dioxide-in-exoplanet-atmosphere

https://scitechdaily.com/webb-space-telescope-detects-carbon-dioxide-in-the-atmosphere-of-an-exoplanet/

https://en.wikipedia.org/wiki/WASP-39b

https://en.wikipedia.org/wiki/WASP-39b#WASP-39_(star)

Image: https://scitechdaily.com/webb-space-telescope-detects-carbon-dioxide-in-the-atmosphere-of-an-exoplanet/

https://astronomyandtechnology.blogspot.com/

James Webb Space Telescope will prove the existence of white holes.

A black hole is a pothole in space. The white hole is like a small hill in space. When a black hole pulls material and wave movement inside it. The white hole will push or repel all objects away from it. When space is shorter in the point of a black hole. The space is longer in the point of the white hole. So the white hole is the opposite phenomenon to a black hole. 

The white hole is one of the most mysterious objects that is waiting for its finder. The white hole would be the opposite phenomenon to the black hole. So we might think that black holes are the thing that is loading energy to the material. 

And then the black hole turns material into 4 dimensional. But the white hole would be the thing that releases energy to a 3-dimensional universe. So we might think of the black holes and white holes as elevators. The black hole will take the material to a higher dimension or energy level.

 And then the white hole would bring the material back from that fourth dimension or energy level. Where the material is invisible. But if we are thinking that the wormhole is the thing that connects black holes, we might ask why the wormhole would sometimes form a white hole to the point where the material comes out from that energy channel? The requirement is that the energy must just need to travel only one direction. But what is the lighter object that can make a channel between the black hole and white hole? 

Diagram 1) 

1) 3D Universe

2) Blackhole

3) White Hole 

4) 4D Universe

The black hole will pump energy to the material and transfer it to the fourth dimension. The white hole is the phenomenon. Where the material that is coming from the fourth dimension. Is releasing its energy. The arrows are the direction of the energy load on those phenomena. 

https://en.wikipedia.org/wiki/White_hole

The answer might be in neutron stars. Maybe neutron stars can create wormholes themselves by synchronizing their oscillation with some black hole. If the radiation of the black hole impacts a neutron star it will synchronize its oscillation to the same with the black hole. Same time the energy level of the neutron star is rising. Sooner or later the neutron star is starting to form the black hole. This idea is pure theory. 

But when the wormhole is forming. There is needed a lighter object that can detonate. That thing could be a short-living black hole. Superpositioned with some other black hole. After the explosion material or rather saying, a material with hyper-high energy will start to travel to the space. The idea is that the wormhole would be the channel where energy is traveling to an area of lower energy level. 

When high-energy particles and wave movement are traveling in the wormhole. That thing keeps other quantum fields away from that channel. The wormhole could be the quantum whirl that isolates space from particles inside that electromagnetic bridge or channel. The wormhole acts like an optical cable. 

That black hole forms inside it. And it starts to expand. The problem is that when the black hole is forming in the middle of a neutron star it would get in the bubble of the quantum vacuum. The Einstein Rose bridge pr wormhole would form between those black holes but then the black hole that is in neutron star detonates. So at the point of that black hole would be the end of the wormhole. 

And that thing remains as the wormhole. The reason why the wormhole would remain without a black hole. is the energy level of the particles that travel in it. The energy that those particles are releasing while they are traveling away from the black hole is making the channel around them. 

The thing is that the wormhole would be the energy channel. And maybe it's some kind of quantum tornado. The fact is that proving the existence of white holes is going closer to proving the existence of wormholes. And maybe JWST will prove that thing. 

https://en.wikipedia.org/wiki/Black_hole

https://en.wikipedia.org/wiki/Four-dimensional_space

https://en.wikipedia.org/wiki/White_hole

https://en.wikipedia.org/wiki/Wormhole

https://thoughtsaboutsuperpositions.blogspot.com/

NASA:s Kepler-telescope is near end of the fuel, and it can be pointed to some specific solar system for collecting specific data from the specific exoplanet system

(Picture 1)

Kimmo Huosionmaa

NASA:s Kepler mission is coming near its end, because fuel of the telescope is running low, and this means, that this telescope cannot be turned to the targets anymore. Kepler has been found new exoplanets, and it has given information, that maybe there is a habitable planet somewhere in the Universe.


Some people think, that maybe this telescope can be pointed at some point in the universe, where are known exoplanets. This system could be Gliese-581, or some other system, what can be observed from Earth, and this telescope can collect the information of this particular system. Maybe it should be Alpha Centauri, where we're at least founded exoplanets.

James Webb telescope
(Picture 2)

But this is only speculation. Kepler telescope has been used to demonstrate low-cost space telescope technology, and it has given very much for science and engineering, and the data what this telescope have been collected, would be analyzed years after its mission have been ended. And this information would be used to selecting targets for James Webb and other very powerful telescopes, what operates outside Pluto trajectory.


James Webb-telescope would represent the brand new design for space telescopes. This telescope has the table, where the telescope optical system stands. This structure allows turn telescope the way, that the guidance rockets would not need use every time when this telescope selects the target. And if those telescopes would send far enough from Earth, the temperature would be very low, what allows use also infrared radiation for making observations for other solar systems.

Sources:

https://www.nasa.gov/feature/ames/nasa-s-kepler-spacecraft-nearing-the-end-as-fuel-runs-low

https://en.wikipedia.org/wiki/Kepler_(spacecraft)

https://en.wikipedia.org/wiki/James_Webb_Space_Telescope

https://www.jwst.nasa.gov/

http://sci.esa.int/jwst/

http://www.asc-csa.gc.ca/eng/satellites/jwst/

https://en.wikipedia.org/wiki/Gliese_581

http://www.skyandtelescope.com/astronomy-news/exoplanet-found-around-proxima-centauri-2408201623/


Picture 1:

https://secure.i.telegraph.co.uk/multimedia/archive/01553/kepler_1553203c.jpg

Picture 2:

https://cdn-images-1.medium.com/max/780/1*WuRfcUMZazcws7_UbycNBg.jpeg

https://crisisofdemocracticstates.blogspot.fi/

http://crisisofdemocracticstates.blogspot.fi/p/nasas-kepler-telescope-is-near-end-of.html