Is the first quark star found?

Image 1)

Researchers found a strange star that can be made of quarks.

If that thing is true, researchers found their first quark star. The quark star is the medium between a neutron star and a black hole. In that case, the star that is too massive for neutron stars but too light for a black hole turns into a quark star. The quark stars are extremely slight, and thick particles. And that means their magnetic and gravitational fields are even more powerful than a neutron star.

In neutron stars, quarks are inside neutrons. And the still hypothetical quark stars are formed of free quarks.

If that kinds of the star are possible, they can make a new portal to observe things like time dilation and dark matter. But in the most incredible visions quark stars are rotating in conditions that make so-called warp bubbles around them. And if the escaping velocity from quark stars is near the speed of light, and the rotation speed of that strange star is also very high.

Image 2)

There can be an effect where the star virtually crosses the speed of light, and that thing could make it possible that time will travel backward on its surface. In that case, the rotation speed along with escaping velocity, which is almost the speed of light causes the situation where time dilation turns time opposite.

Escaping velocity+rotation speed can together make it possible that the virtual speed on the object's surface is higher than the speed of light. And that thing can turn time opposite. And even if that thing would not happen the quark star is giving an interesting platform to research time. This is one of the reasons why quark stars are very interesting things.

Extreme fast rotation speed can cause the situation where a quark star throws photons around the universe. That thing can make quark stars so-called ghost stars or stealth stars. In that case, the photons would not reflect the observer.

The system can work like when water hits the ball. The quark star will send the photons. That comes from the side of the observer. But the photon that impacts the quark star from the direction of the observer continues its journey in a different direction than in other cases.

https://www.universetoday.com/15306/forget-neutron-stars-quark-stars-might-be-the-densest-bodies-in-the-universe/

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

Image 1) https://www.sciencealert.com/mysterious-object-may-be-a-strange-star-made-out-of-quarks-scientists-say

Image 2) https://www.universetoday.com/15306/forget-neutron-stars-quark-stars-might-be-the-densest-bodies-in-the-universe/

https://artificialintelligenceandindividuals.blogspot.com/

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