Fundamental AI and the fundamental plasma-ion engine

  Fundamental AI and the fundamental plasma-ion engine

Vlasiator is a fundamental AI-based system that simulates particle flow.

The University of Helsinki's Vlasiator computer program noticed interesting things in the plasma pulses in the Earth's magnetosphere. That thing is that the Earth's poles form plasma pulses in a very interesting way. The N and S poles drive plasma ions and anions through different routes.

And then those anions and ions impact together. That thing forms a thing called a plasma pulse. The Vlasiator is an artificial intelligence-based program that can also be used for making flow models. And one of the most interesting things is the ion engine that uses solar plasma to make thrust. This is one version of the Bussard Ramjet. 

The hypothetical interstellar fusion engine pulls plasma into the accelerator by using magnetic fields. And then the laser system ignites the fusion reaction. Same way in a high-voltage pulsed plasma system nuclear fusion makes plasma and thrust. 

There is no fusion ignition in low voltage plasma pulse engine (or pulsed plasma system). The impacting plasma causes reflections and increases pressure in that reaction chamber. And that is the thing, that thrusts the system. 

"Plasma eruptions in near-Earth space. The University of Helsinki’s Vlasiator model demonstrated that both magnetic reconnection and kinetic instabilities are responsible for plasma eruptions in near-Earth space, providing vital insights for space research and technology. Credit: Jani Närhi" (ScitechDaily.com/Plasma eruptions in near-Earth space. The University of Helsinki’s Vlasiator model demonstrated that both magnetic reconnection and kinetic instabilities are responsible for plasma eruptions in near-Earth space, providing vital insights for space research and technology. Credit: Jani Närhi)

But that image could also introduce the model of the plasma pulse engine system. The plasma pulse system drives anions and ions by using different routes. And then those ions and anions impact together. 

"Artist's conception of a Bussard ramjet. A major component of an actual ramjet – a miles-wide electromagnetic field – is invisible." (Wikipedia.com/Bussard ramjet)

The pulsed plasma engines are one version of the Bussard's ramjet. The pulsed plasma engines can use any gas ions and anions. The system just creates plasma and drives anions and ions through different routes to the chamber, where they hit each other. That thing forms plasma pulses like Earth's magnetic field. Theoretically, a pulsed plasma engine allows a craft that uses it to operate outside and inside the atmosphere.

Image 1 above introduces plasma pulses. And how they form. Those plasma pulses are making an interesting model of the new way to use solar power in ion engines. The idea is that the new ion engine, or plasma-pulse ion engine, uses two routes, which are positive and negative-loaded. 

Those plasma routes drive solar plasma to the chamber, where they impact together. That thing can form the plasma pulse that can drive spacecraft in the solar system. The system that pulls plasma into the tubes that drive it into the reaction chamber must not use very high-power magnetic fields.

https://scitechdaily.com/vlasiator-unveils-solutions-to-a-central-mystery-in-space-physics/?expand_article=1

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

https://technologyandfuture4.wordpress.com/2023/08/24/154/