Andy Lowery

And phasing, they call it phasing all of those up, what you do is each one puts out a little bit of energy, a little bit of energy, a little bit of energy, and you take all of that energy and phase it up into one tremendously strong beam, and then push that beam out into the atmosphere.

And that's what causes the electromagnetic interference field or the directed energy field that causes all the problems with any sort of electronics.

So it's not easy, think about it.

We are creating out of a machine made out of electronics, something that disables any electronics being able to fly or being able to operate from hundreds of meters, if not kilometers away.

without kind of self-destroying ourselves, right?

And taking ourselves offline.

There's a tremendous amount of innovation when it comes to shielding, when it comes to protecting the circuits from getting their own electromagnetic interference energy back on top of it.

So that's why it's so state-of-the-art and that's why I think it's so unique is that we're taking into consideration things that just really have never been done before or even attempted before for that matter.

No, the beam would be smaller than the rectangle because right behind the rectangle are hundreds of those elements.

Just as we pulled that rectangle off, you'd see hundreds.

The beam would come down to be about, let's say, 10 degrees or so, 5 to 10.

Between 5 and 10 degrees is where your beam is going to get shaped.

Yeah, if you think about it, like from the water, if you had like one wave maker in water making waves, and then you had another wave maker making waves, you try to time them up so those waves start to stack on top of each other.

So like 100 times over though, like if you had 100 water wave makers that are making a wave in the water, wave in the water, wave in the water, and you time them such that every wave crested at the exact same point, fell at the exact same point, you could create a huge wave, if you imagine,

Hundreds of those wave makers, you could create a huge wave out of a bunch of little waves if you just time the sequencing and the pulsing of those waves at the same time.

Exactly what we do inside a microwave system.

But the waves are moving much quicker.

They're, of course, in microwaves, not in water.

and we're timing those waves so that each one of those peaks and each one of those valleys line up and then form it into a very narrow, for the size of the system, narrow beam that we then move the narrow beam around electronically by, again, timing those waves in sequence so that the system goes to the left, goes to the right, goes up, goes down.

Then on top of that electronic steering, we have our mechanical steering where we can spin the system around.