What is meant by magnetic confinement?

Magnetic confinement is a mechanism used in the generation of fusion power. It makes use of the conductivity of plasma in order to confine it within magnetic fields.

Is Lattice confinement fusion real?

While lattice confinement fusion is not a new concept and is definitely not ready for practical applications, it has been detected within metal samples by NASA researchers at the Glenn Research Center in Cleveland, Ohio, using an electron accelerator–driven experimental process.

What is nuclear fusion stars?

Nuclear Fusion reactions power the Sun and other stars. In a fusion reaction, two light nuclei merge to form a single heavier nucleus. The process releases energy because the total mass of the resulting single nucleus is less than the mass of the two original nuclei. The leftover mass becomes energy.

What is Crystallic fusion?

Crystallic fusion is a form of energy commonly used throughout the galaxy. Found in the mines of Bathyos, the crystal is very powerful and highly explosive. The crystal itself is shown to be a light shade of green and faceted.

How is magnetic confinement fusion different from other fusion technologies?

In previous fusion research such as inertial confinement fusion, fuel (such as deuterium/tritium) is compressed to extremely high levels but for only a short, nano-second period of time, when fusion can occur. In magnetic confinement fusion, the fuel is heated in a plasma to temperatures much higher than those at the center of the Sun.

What is “lattice confinement”?

“Lattice confinement” may sound complex, but it’s just a mechanism—by comparison, tokamaks like ITER and stellarators use “magnetic confinement.” These are the ways scientists plan to condense and then corral the fantastical amount of energy from the fusion reaction.

What is magnetic confinement?

Fig. 1:Magnetic confinement of ionized plasma – (Created by Jason Ginsberg) Nuclear fusion is the process by which two nuclei combine to form a heavier nucleus. [1] The fusion product, while heavier than either of the two starting nuclei, is not as heavy as the sum of the original masses of the starting nuclei.

How do you confine the plasma for fusion?

The primary solution to confine the plasma for fusion has been to produce a magnetic field. (Fig. 1) Even still, the confinement lasts only a few seconds as the instability of the plasma accrues. Tokamak