Unironical support

... around the sun.

Orbital particle collider or bust

Just put it in orbit! Let's commit and put a ring on this planet!

Honest question could this be feasible with a few dozen satellites positioned above the Van Allen Belts to accelerate particles, and just letting the particles raw dog the solar wind and ride around Earth's gravity well between each acceleration satellite? Cause that would be badass

Skip that. Put it in orbit and make it double as a solar collector array and beam the extra energy back down.

Fr no solid theoretical basis, just trust me bro

They'll be gone in another 15 million to 400 million years.

Ops, I meant the Proton Syncrotron.

Maybe that's the real Kardashev scale...

I said 10y, but yes it will need a lot more colliders.

“We just want to smash two little planets together at 99% speed of light!”

More size = more speed and more particles colliding = more bang = more data = for example possibility for dark matter and/or heavier particles to be found.

No, that would be Bulgaria

My understanding based on watching too many science communicators videos on YouTube is that such tiny black holes would evaporate quickly before causing harm that humans could appreciate. However, this would provide experimental evidence of Hawkings theory.

Unironically, getting to watch short-lived black holes explode could be really, really useful.

But no, the larger one on the picture isn't anything near big enough for that.

The limiting factor is the bend. The subatomic particles want to go in a straight line. A magnetic field is used to bend the beam around into a circle. The faster the particles are moving however, the more energy is needed to bend them. A larger circle has less bend. This lets you get your particles faster.

Since E^2 = M^2 C^4 + P^2 C^2 (the full form is E=MC^2 ). If you can force the particle to stop rapidly, then you can force the energy from momentum into mass. This is done by hitting 2 beams into each other. The faster the beams, the more energy is available to convert to mass.

Most of the time, this creates a lot of mundane particles. However, ever so often it creates something interesting. They rapidly decay into mundane particles, but the shower they create tells us a lot about them. The catch is that all the energy needs to be present at once. You can't use more particles, you need to make them move faster.

As for why. The more particles we have to study, the more we can figure out about the underlying rules. We have a number of theories. They all agree at lower energy levels, but disagree at higher energy levels. By knowing which is correct, we can pry deeper into the workings of reality.

More size = more speed and more particles colliding = more bang = more data = for example possibility for dark matter and/or heavier particles to be found.