Could objects wobble between black holes and visible states?

"An image of the sky showing the region around ASKAP J1832-0911. X-rays from NASA’s Chandra X-ray Observatory, radio data from the South African MeerKAT radio telescope, and infrared data from NASA’s Spitzer Space Telescope. Credit: Ziteng (Andy) Wang, ICRAR" (ScitechDaily, 15,000 Light-Years Away, Something Is Blinking – And It Might Rewrite Physics)

"An international team of astronomers has detected a bizarre cosmic object that pulses with both radio waves and X-rays—something never seen before. Known as ASKAP J1832-0911, this “long-period transient” flashes every 44 minutes and could unveil entirely new physics or models of stellar life cycles."  (ScitechDaily, 15,000 Light-Years Away, Something Is Blinking – And It Might Rewrite Physics)

Could objects wobble between black holes and visible states? 

Could there be objects in the universe that are black holes, and visible objects at the same time? That means the object will be the Stellar-class Schrödinger’s cat. The system wobbles between a black hole and a visible object.

And could ASKAP J1832-091 be that kind of object? If that is two the object is between two quantum states. The “regular state” and the black hole state. Where escape velocity crosses the speed of light the time moves opposite. And the world where time moves as we know it. If that kind of object wobbles between a black hole and a regular, visible object, that object can act as a yoyo that brings information from the future to the past, or present time. 

Could there be objects in the universe that are black holes and hypothetical quarks- or neutron stars at the same time? There is the possibility that the object that has escape velocity very close to the speed of light can wobble between two states: black hole and high-mass quark or neutron star. When that object pulls material inside it, it can turn more massive. And when it releases gravity waves that decreases its mass. And the object turns back to its visible state. 

"Radio and X-ray light curves showing how ASKAP J1832-0911 pulses at both bands. Credit: NASA/CXC/ICRAR, Curtin Univ./Z. Wang et al.;" (ScitechDaily, 15,000 Light-Years Away, Something Is Blinking – And It Might Rewrite Physics)

There is also a possibility that the neutron star or very small-, low-mass black hole orbits a larger black hole. If that orbiting movement is fast enough it can make the other black hole's singularity virtually donut-shaped. In some models, the small black holes that are near massive, or high-mass neutron stars can be behind the mysterious X- or gamma-flares that come from that thing. 

The hypothetical "high mass" magnetar is similar to the low mass magnetar except the black hole near it gives the energy into it. But what does that kind of system look like? The black hole would be very dominating and that means the neutron star might look lighter than it is. This idea is that a very low-mass black hole would participate in that system. 

Could some of those things explain the mysterious connection between X- and radio bursts that the ASKAP J1832-091 sends? That X- and radio curves don’t follow the same line can tell that the X-ray object will go behind some other object. Or the object sends X-rays into some other object. Then another object binds energy into it. And sends it as the radio wave bursts. 

That can explain why the top of the X-ray emission is at the same moment as the radio burst. 

A mysterious object called ASKAP J1832-091 sends X- and radio bursts at the same time. The thing that makes this interesting is that the radio bursts are at a lower energy level than X-rays. Another interesting aspect is that the X- and radio bursts co-occur. That means those effects are connected. 

That means the ASKAP J1832-091 sends long-period transient signals and that can rewrite physics. There is a possibility. That ASKAP J1832-091 is some kind of black hole and some planet or other small object orbits it. When an X-ray burst hits another object, it sends the radio waves. But there is also another interesting question about the black holes. 

The question is about so-called "tau stars" or objects that escape velocity very close to the speed of light. That causes a hypothesis that there can be an object that transforms or wobbles between a black hole and maybe a quark star. When we think about the difference between neutron stars and still hypothetical quark stars, the last ones would be so slight that they seem to reflect or send radiation as an entirety. And maybe that thing makes them hard to detect. 

But then we might think about the "tau stars" , the stars whose escape velocity is very close to the speed of light. That object can turn into a black hole when it "eats" enough material. But when the energy level in those objects decreases the gravity waves send so much mass out from the star that it turns back to the "normal star". So changes in the mass make the star wobble between the high-mass neutron- or quark star and low-mass black hole. If that is possible the ASKAP J1832-091 would be the most incredible thing in history. That ever found. 

https://scitechdaily.com/15000-light-years-away-something-is-blinking-and-it-might-rewrite-physics/

https://en.wikipedia.org/wiki/Schr%C3%B6dinger%27s_cat