September 13, 2005 : Attempt on my life via advanced directed energy weapons. On this day there was an attempt to stop my heart.
Date : September 13, 2005
Time : 12:11 am
Location : Beaverton, OR (USA)
Camera : Sony® Digital Cybershot DSC-P32
Film : N/A
Flash : On
Aperture : F/2.8
Shutter : 1/40
Original. [ 880 KB ]
Here is an example using a flashlight to help you understand that this is a beam(s). This example below is the basic concept illustrating what is occuring, the points in the sky I have drawn could be satellites [(L)ow (E)arth (O)rbit/aerial vehicle(s)/space based weapons platforms. The angles are not exact but this is the concept. If you have a digital camera you can reenact this by turning off the lights and shining a flashlight at an angle towards the lens, it will create the same effect.
It's also possible to influence thermal blooming by "tailoring" the distribution of energy within the laser beam. Energy is concentrated at the center of most laser beams, a type of "beam profile" that would tend to accentuate thermal blooming. Other energy distributions, such as one in which most of the energy is concentrated in a ring near the edge of the beam, can somewhat lessen thermal blooming.
Jeff Hecht, Beam Weapons: (New York, N.Y.: Plenum Publishing Corporation, 1984), 99.
"The standard type of resonator produces a beam with most of its energy in the middle, but other designs produce different energy distributions. One type produces a ring or "donut"-shaped beam that carries little of its energy in the center, a configuration that may make it easier to get the laser beam through the air to its target."
Jeff Hecht, Beam Weapons: (New York, N.Y.: Plenum Publishing Corporation, 1984), 61.
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Below is an example reenacted with a 1 million candle power infrared spotlight (90% pass through filter) aimed at an angle down towards the camera. Notice the oblong shape because of the oblique angle.
