I think he means on the other side of the chart, below longwave (VLF) radio. The idea that gravity is an EM field does not at all ring true to me. I love it though when something unexpected turns out to be true.

In his theory, they would be probably up somewhere near the Planck limits

http://www.blazelabs.com/pics/em_spectpl...

Here's a link to some of his writings on the topic:
http://www.blazelabs.com/f-g-intro.asp

But, that said, they would be so absurdly high energy it would be comical. The only way I can conceive on how they would be interacting with everyday objects without utterly obliterating them is that they NEVER actually collide with an object like gamma rays or other wavelengths do. But rather that they would simply interact by their passing near (I don't know if this happens or not), almost like a field.

Basically, if his theory were true, it would be a "push" theory, which explains action at a distance and a number of other effects. And it's also testable with extremely sensitive sensors (how sensitive I don't know). In short, massive objects would be "shadowing" gravity at some very small level. So you have "pressure" from one side where the massive object isn't shadowing, and "less pressure" on the side the massive object is shadowing.

In this case, gravity shouldn't "stack" with other objects, but would rather have diminishing returns. So if you stacked every planet in alignment, in theory (these are made up numbers) you would *expect* to see something like this (neglecting distance from the sun as a factor):
Gravity "pressure" near the sun, in the direction of the sun: 1.0
Gravity behind Mercury: 0.9
Gravity behind Venus: 0.8
behind Earth: 0.7

But in reality, since each object would be shadowing gravity, you're "losing" some strength from some gravity waves as they pass through the massive object. So maybe the gravity near the sun is only 99% of the "free space" gravity "pressure". So now you go to Mercury, and instead of 100% multiplied by Mercury's expected gravity, you only have 99%. And when you get to Venus, you only have 99% + Mercury's deletion of some of the gravity strength, maybe it's now 98%, etc... So by the time you get to Pluto, you may have a significant amount of gravity waves having lost strength, and could measure a difference in *actual* gravity vs "expected" gravity from today's theories.

This ALSO means there is a theoretical limit to gravity. It may be near impossible to get to, and may require way more mass than even a black hole could ever have, but, in theory, there would be a limit.