MICROPLASMOID PHENOMENA: DETECTION, SHIELDING, AND CONTROL 2020

Plasmoids leave experiments and cause damage, and their effects and properties are as yet not fully understood. It would be prudent for experimental researchers and people working with plasmoids to keep a distance from them, attempt to shield from them, and learn for themselves about how they act in their experiments. 

The picture above was taken by me while working at the Fusion Studies Lab of George Miley in 1996. These were features on the lexan casing of the electrolysis used for transmutation of elements. After the experiment was over, I took the casing and examined it under a good quality optical microscope that has a camera. All three pictures show that active and energetic plasmoids traveled from the metal of the microsphere beads and/or the electrodes where they formed and touched the lexan casing.

The first picture shows two ring microplasmoid markings on the clear lexan. I think these were marks on the inner surface of the lexan casing. The bottom and top rings looked more similar in the original picture, but I used software to delineate the edges of the top part of the picture. Then you could see the donut shape  more clearly. The straight lines visible might be particle tracks. We speculated about whether the lines on the lexan casing were microscopic scratches or particle tracks. I do not think that they are very tiny microplasmoid tracks because microplasmoids in the white, active state may usually not travel in straight lines since most of their tracks are irregular or angular. 

The second picture shows that one of more microplasmoids left the surface of the microsphere and left micrometer-sized ring markings about the same shape on the left side of the microsphere. You can see also that perhaps they left a trail mark.

The third picture shows a similar event on the right side of another microsphere. Taking the pictures was an amazing experience because I easily found dozens or perhaps even hundreds of microplasmoid markings on and maybe in the lexan, on the electrodes, and on the beads themselves. 

The cell had much material transmuted. You can find more information about this experiment and other pictures in two picture articles I wrote and put online in 1996 and 1997.

According to Urutskoev, markings on the film he used to record similar markings far away from his experiment show that the microscopic plasmoids had mega electron volts of energy. These experiments show that energetic, material transforming and damaging microscopic objects may leave experiments by boring a tunnel on their way through or by passing through with perhaps no effect through materials. 

See the manuscript article on plasmoid safety issues I wrote in 2021 and that is at the bottom of this Plasmoid category page for information about excellent research that was recently work done on microplasmoid effects on plants that suggest that lead may be a good shielding material and even a thin sheet of paper is better than a thin sheet of aluminum. 

Letter to the Editor Infinite Energy issue 149 January/February 2020 pp. 4-6.

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