AI Explains Backyard Plasma Beams

Here’s some background information for those who are not familiar with my experiences documenting the activity at the portal.

The beams I photographed flying across the yard have many characteristics of plasma. I had already taken hundreds of pictures of these beams before I discovered the actual portal. They are generally invisible to the eye but look like very bright beams when the camera flash shines on them. I could see them as I held my camera in front of me and snapped pictures as fast as the camera would allow.

When I videotaped the portal opening, it was illuminated with infrared light that allowed my infrared camcorder to record the beings and get a peek inside their world. I saw they were beaming something down near me, and later realized the beams I was photographing had been coming from inside the portal and that’s why they were always in the same area.

When looking through the infrared camera, the light from inside the portal was very bright, and the atmosphere in the otherworld may be infrared. But they seemed to be controlling a beam from inside the portal and directing it at an angle over the fence and right near where I was standing. It appears to be a deliberate, intentional action.

Is there a relationship between the bright infrared light in the portal and these plasma beams I’ve photographed? I asked AI how this would be possible, and how plasma beams could fly across a backyard from an infrared source. I was surprised it had an answer.

AI Explains Backyard Plasma Beams:

To create a plasma beam using infrared radiation, a process known as laser-plasma acceleration can be employed. This process involves using a laser to generate an intense burst of infrared radiation that is focused onto a target material, typically a solid or gas. When the radiation interacts with the target, it ionizes the atoms and generates a plasma.

Once the plasma is generated, it can be guided and accelerated using a magnetic field. This is accomplished by placing a series of magnets around the plasma source, which generate a magnetic field that interacts with the charged particles in the plasma. By controlling the strength and direction of the magnetic field, the plasma can be steered and guided across a given distance.

In order to guide a plasma beam across a backyard using infrared radiation, a number of technical challenges would need to be overcome. Firstly, a source of high-energy infrared radiation would be required. This could be achieved using a laser, such as a carbon dioxide (CO2) or neodymium-doped yttrium aluminum garnet (Nd:YAG) laser.

Secondly, a target material would need to be selected that is capable of generating a plasma when exposed to the infrared radiation. This could be a solid or gas material, such as hydrogen or nitrogen.

Finally, a means of guiding and steering the plasma beam would need to be developed. This could be achieved using a series of magnets or electrodes, as previously discussed.

In conclusion, while the creation of a plasma beam using infrared radiation is a complex process that requires advanced technology, it has potential applications in a range of fields.

Is AI explaining how these beings are doing this?