The shape of the fusion reactor meant something.

Image 1)

When we are thinking about ion fusion, where ions with plus and minus polarities are impacting together, we must realize that there is one problem. If all ions have the same polarity. They are repelling each other. So the magnetic field must push those ions together. And then an ignition laser will pull those ions together. If we will inject the different polar ions into the Tokamak reactor that magnetic field will pull another ion cloud to the walls of the accelerators.

The system can use a similar structure to NIF (National Ignition Facility). In the middle of the ball, the system sprays a cloud of positive ions. Then magnets start to press that positive ion cloud. And after that, the negative ions will shoot to that chamber by using a particle accelerator. The beam of negative ions will impact that glimpse of positive ions. And the laser rays will increase the energy of that system until fusion starts.

The Images in the diagram above are

1) Traditional Tokamak

2) Tokamak includes two acceleration lines. The system will impact positive and negative ion beams at the crossing point.

3) NIF-type or ball-shaped reactor. The cloud of positive ions will press together by using a positive magnetic field. Then negative ions will inject into the ball and they impact with positive ions.

4) Ball-shaped chamber. Positive and negative ions will be driven to the chamber from opposite directions.

5) The linear accelerator where negative and positive ions are shot to impact tracks.

Or we can use another structure. There is the possibility that using accelerators that are making ion beams cross each other allows the ion beams that have different polarity can impact each other. In that case, the ions that have different polarity pull each other to impact course.

In another version, the system uses two linear accelerators. The accelerators or ion cannons are shooting ions in the fusion chamber from both sides of the chamber. The reaction chamber itself would be neutral. And particle accelerators shoot those plus and minus ions to that chamber. The laser rays or some other electromagnetic radiation can increase the temperature of that fusion system.

https://www.bbc.com/news/science-environment-60312633

https://scitechdaily.com/nuclear-fusion-energy-breakthrough-ignition-confirmed-in-record-1-3-megajoule-shot/

Image: 1)https://scitechdaily.com/images/Tokamak-Components.jpg

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