¤ The Chemtrails and The Magenta Halos
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This article was expanded on September 24, 2012
Halos First Appear Around Lights
Chemtrails first began appearing daily in Jamestown, New York in 2005. At the same time, I began seeing the most interesting thing. When I looked at street lights or parking lot lights at night, I would see what appeared to be a faint, magenta halo around them.
The outer edge of this halo—working from inside to outside—would fade to orange and then yellow. The orange and yellow bands were relatively small compared to the diameter of the magenta core. The way the halos faded from the core to the outer rim created a striking, 3-dimensional spherical appearance. Throughout my life I had always looked at street lights at night, but I had never seen anything like this before.
Halo Intensity Matches Spray Intensity
I have a very sensitive sense of taste and smell, so I can easily detect the intensity chemtrails in the air at any time. Because of this sensitivity, I immediately discovered that the intensity of the halos around lights was directly proportional to the intensity of chemtrail aerosols in the air. This correlation was tightly coupled. As the intensity of the aerosols increased, so did the intensity of the halos. As the plume blew away and the intensity of the smell and taste of the chemtrail decreased, so did the intensity of the halos. This correlation remains to this day.
What Causes Halos?
Halos are caused when light, traveling away from a light source, hits particles in the air and is reflected back towards the camera (or your eye).
You can learn a lot about the particles in the air by the type of reflection they produce. A non-uniform « hazy » reflection may indicate that the reflective particles vary in shape and size. A uniform, well-shaped reflection may indicate that the particles are uniform in shape and size.
In the case of aerosol halos, the shape is very uniform and even appears spherical when viewed under ideal conditions. This suggests that the particles reflecting the light are all the same shape and size.
Later in this article I talk about the white haze that consistently appeared a couple years after the magenta halos and obscured them. This haze is non-uniform and indicates a reflective particle that varies in size and/or shape.
Why Magenta?
The primary color of the original aerosol halos is a deep-red or magenta. Today, when only white light is available, the halos apper a pale-pink. Around high-pressure sodium lights (often used in street lights) which tend to emit an orangish hue, the halos sometimes appear yellow or orange.
In movies and television shows, when red lights shine directly into the camera, the most dramatic and well-defined red halos appear. Clearly, the chemtrail halos are most reflective in the deep-red (magenta) color range.
The appearance of the aerosol halos is associated with a chemtrail type called the « Acetone » type (because it smells and tastes like acetone). This chemtrail type is also associated with health symptoms known specifically to be caused by mercury.
Mercury is mined as a magenta-colored ore called cinnabar. Because of its color, it is most reflective in the deep-red color range, just as the aerosol halos are. This leads us to the logical question:
Do aerosol halos favor magenta light because of the presence of mercury in the form of the inexpensive, unrefined ore of cinnabar?
When we consider the fact that chemtails induce a number of health symptoms that arespecifically identified with mercury toxicity, we have good reason for concern. (more…)