Ashton Forbes

Not a little bit stable, perfectly stable plasma.

We can just solve the equation and say, here's the math, this is what we need to do.

Boom.

Now I got a plasma that we'll call an EVO, exotic vacuum object, that acts like a soliton, acts like a single object, as opposed to acting like a bunch of individuals.

And this further explains, according to Ken Shoulders,

Why they don't explode if you have this huge amount of energy density you would expect at some point It's going to blow up But they create these stable structures where the energy can be stored where it almost starts to begin to act like a battery Where you're like building that energy up storing that energy up on the quantum level, but it's being coherently saved in there without exploding, uh randomly out So this would explain too why

Why are we using those orbs?

Because not only are the orbs a fusion reactor, they're also an exotic vacuum object with self-stabilizing properties, but they can also store up a huge amount of charge, superconducting charge, so they don't heat up either.

They stay relatively low temperature because they're superconducting, so they can build a current without heating up.

So you have a superconducting or building this current up.

What's the limit?

How much current can you save in there?

If it doesn't heat up, if it does never break apart, you can store a lot, a lot of energy.

So one answer to how you can make the wormhole might be that these orbs can build up this huge amount of charge and then collapse on each other and exponentially increase that even more.

But that's probably still not enough.

To manipulate spacetime, you need C to the 4 divided by G for the curvature.

It's a huge number.

You need a huge amount of energy to bend this spacetime.

But Salvatore Pais has the answer to that, too.

And this is Eric Weinstein.