“The central square image, taken with the MUSE instrument on ESO’s Very Large Telescope, shows shock waves around the dead star RXJ0528+2838. When a star moves through space, it can push away nearby material, creating a so-called bow shock, which in this image is glowing in red, green, and blue. The colours represent hydrogen, nitrogen, and oxygen, respectively. “ (ScitechDaily, “We Found Something Never Seen Before” – Mysterious Shock Wave Around Dead Star Surprises Astronomers)
These shocks are usually produced by a strong outflow expelled from the star. However, in the case of RXJ0528+2838 – a white dwarf with a Sun-like companion – astronomers discovered that the shock wave can’t be explained by any known mechanism. Some hidden energy source, perhaps magnetic fields, could be the answer to this mystery. Credit: ESO/K. Ilkiewicz and S. Scaringi et al. Background: PanSTARRS.” (ScitechDaily, “We Found Something Never Seen Before” – Mysterious Shock Wave Around Dead Star Surprises Astronomers)
The form of the shockwave of the white dwarf RXJ0528+2838 is mysterious. Because of its shape. The shape of the shockwave is like a comet. This can tell. This white dwarf is in the middle of the material flow that impacts its pole. The material flow that impacts this white dwarf acts in the same way. As solar wind. Acts when it impacts comets. So. There is. Some kind of material flow. There, the white dwarf RXJ0528+2838 is. This means that there is some kind of effect that puts hydrogen and other material in a flow against this white dwarf. When the high-speed material impacts the pole of the white dwarf. It puts it in a glow. Because of the heat. The problem is, where does that particle flow come from? Those particle flows require something that accelerates them.
There is a possibility that some of those material flows form. In a thing. Called a plasma generator. When plasma whirls around the iron core, or proton cloud whirls around the electron cloud. Or. Ion plasma whirls around anion plasma. The structure acts like a giant generator. Those plasma whirls, or plasma generators, can form galaxy-size magnetic fields that drive plasma from very large areas. Those electromagnetic fields can cause plasma to move. And that effect can explain why we cannot see the source of the plasma flow, which impacts the white dwarf RXJ0528+2838.
“Magnetic fields permeate the universe, shaping processes from solar winds to galaxy formation. Yet scientists have long struggled to explain how large, orderly cosmic magnetic fields arise from chaotic turbulence. New simulations reveal a mechanism in which persistent velocity gradients within plasma flows generate organized magnetic structures. Credit: Stock.” (ScitechDaily, Scientists Solve a 70-Year Mystery Behind the Universe’s Strange Magnetic Fields)
Mysterious shockwaves from a white dwarf can open a path for new ideas in physics. When a star like our sun. Uses all its hydrogen. And it ends its career as a star that maintains its nuclear reaction. As. A very thick star known as a white dwarf. In that star, the material of the star. It is pressed into the Earth-sized object, so that gravitation is strong. Those white dwarfs are mainly carbon. And somebody says that those things are Earth-size diamonds.
The white dwarf pulls matter to its shell like all other gravitational centers. That material forms a plague on the white dwarf’s shell. That plague raises the white dwarf’s mass, and sooner or later, there forms the fusion reaction. The power and cycle of those reactions. Depend. On the white dwarf mass. But it also depends on polarity and the temperature of the plasma. If that nuclear reaction happens homogenously around the white dwarf, it sends shockwaves into the center of the white dwarf. Those shockwaves can also push matter away from the white dwarf’s shell.
The white dwarf can pull lots of material back to its shell after the final eruption of the star. How much material drops on a white dwarf, depending on how strong the final eruption of the star is. The nova eruption is not as strong as a supernova. When a small star erupts as a nova, the eruption will not push material very far away from the star. And that means lots of particles and gas can fall to the white dwarf. The nuclear reactions on the shell of those stars can be seen as flames or shockwaves. This can explain the shockwaves. That comes from the white dwarf RXJ0528+2838. But. The problem. It is in the asymmetry of those shockwaves. The white dwarf seems to be in a formation. That seems like some kind of solar wind. But where does that flow come from? Maybe. This thing tells about the power of those natural plasma generators.
https://scitechdaily.com/scientists-solve-a-70-year-mystery-behind-the-universes-strange-magnetic-fields/
https://scitechdaily.com/we-found-something-never-seen-before-mysterious-shock-wave-around-dead-star-surprises-astronomers/
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