Neutronium.us

Flux tubes occur naturally. One exists between the planet Jupiter and the moon Io. Flux tubes form when there is a strong electromagnetic field, when plasma made up of ions comes to occupy the space between twisted and layered electromagnetic streams resulting in the formation of a shell. An area inside the shell, a permanent tube structure, in essence, is isolated and protected by this rigid electromagnetic plasma shell.

Have you ever heard the term spaceship Earth? We all know of the importance of the electromagnetic field which envelopes our world, in essence protecting us from radiation. ultraviolet rays, and other potentially destructive energies directed our way by the Sun and the Universe. While the electromagnetic field, which protects us, isn't a flux tube structure in the strict sense of the term, it is related. The electromagnetic field, or magnetosphere as scientists call it, doesn't present a tight enough twisting to facilitate the capture of ions necessary to form a flux tube. The Earth is protected, to some extent, but we are not sealed inside a flux tube.

The reason this discussion relates to the topic of the neutronium fusion that occurs at the core of all gravitational structures (black holes, stars, planets, moons, planetoids, and comets), is it validates the idea that neutronium, a very small quantity of neutronium, would be suitable for use in the creation of flux tubes. Inducing a small piece of neutronium to enter into fusion, and coupling this process with appropriate conductive material, and possibly augmenting this with additional conductive material that would provide direction to the formed electromagnetic field, and facilitating the induction of matter that would ionize should result in the creation of a flux tube, according to this hypothesis.

This is all well and good but the proposal is moot because we don't have any neutronium. Maybe we do, and maybe we don't. Theoretically, neutronium in small quantities, matter ejected from the neutronium center at the point of the Big Bang, or material ejected during events such as super nova explosions, should be dispersed throughout the universe. Now these pieces of neutronium might be rare, and they would need to be small, and not be in fusion state, all of which is conceivable. For certain, a portion of these pieces of neutonium would have been, or are, sucked in by ongoing fusion activities such as in the growth of black holes and stars, and possibly less frequently in the formation of planets moons, planetoids, and comets.

The photograph displayed on the upper right hand side of this page it intended to represent what an induced flux tube might look like. The photograph was taken by an individual in Kentucky. He videoed the tube for more than 45 minutes and reported it as an unidentified flying object.

Someone obviously, in accord with this hypothesis, already understands and utilizes neutronium technology. We aren't alone in the Universe.