How the Large Hadron Collider's successor will hunt for the dark universe

m3t00🌎 voted@lemmy.world · 9 months ago

How the Large Hadron Collider's successor will hunt for the dark universe

mr_robot@lemmy.world · 9 months ago

Remember how nut-jobs were convinced that using the LHC would create an earth-eating black hole? I miss the simpler times.

Uneducated conspiracy theorists seemed laughably quaint back in 2012.

deweydecibel@lemmy.world · edit-2 9 months ago

2012? The LHC black hole shit was the mid 2000s, around 2008 is when it peaked.

Which itself was a repeat of the same concerns that were thrown around in 2003, when CERN thoroughly debunked them the first time.

And I have full confidence we’ll see a return of them once this project gets closer to fruition.

witty_username@feddit.nl · 9 months ago

That’s a flippin colossal collider

just_another_person@lemmy.world · 9 months ago

Right? That’s an unimaginable amount of work. Imagine trying to debug that thing if there are issues. Walking miles a day just checking on stuff lol

Algaroth@lemmy.world · 9 months ago

Have you tried turning it off and on again?

ClockworkOtter@lemmy.world · 9 months ago

Imagine designing this thing that probably won’t be completed until you’re dust!

deegeese@sopuli.xyz · 9 months ago

How cathedral architects must feel.

Marcbmann@lemmy.world · 9 months ago

Then you can get accelerated in the thing you designed.

TheBiscuitLout@lemmy.world · 9 months ago

Is it by smashing stuff together until they break something fundamental, and the universe goes dark?

pacmondo@sh.itjust.works · 9 months ago

Whoops, blew the galactic breaker. Somebody has to go down to the supermassive black hole and flip it back on.

not_woody_shaw@lemmy.world · 9 months ago

I’m sure Mehdi can find it for us.

owenfromcanada@lemmy.world · edit-2 9 months ago

Instead of building it this big, they should build it as big as the following one will be.

Chocrates@lemmy.world · 9 months ago

Instead of building it that big, they should build it as big as the following one after the following one will be.

sorghum@sh.itjust.works · edit-2 9 months ago

Build it along the equator

not_woody_shaw@lemmy.world · 9 months ago

Build it in orbit around the sun.

Socket462@feddit.it · 9 months ago

Here it is the comment I was looking for. Another fellow three body problem reader, I suppose.

Hule@lemmy.world · 9 months ago

But where’s the fun in that?

Gork@lemm.ee · 9 months ago

Are the two intersecting to give scientists the option of transferring from one collider to the other? If so, why intersect at two points (they overlap a little) instead of just one (at a single tangent point)?

Fermion@mander.xyz · edit-2 9 months ago

https://www.cern/science/accelerators/accelerator-complex

Yes, the maximum energy that a syncrotron can accelerate a beam to is determined by its size and field strength. There are multiple rings that are used to bring beams up in energy levels before feeding to the next. Each ring has many bunches of particles circulating. So each bunch has to be going close to the same speed. You wouldn’t want to do all the accelerating in one ring because it wouldn’t allow nearly continuous operation.

As for two intersecting points, the collisions involve colliding two beams. So there’s two different kicking/injecting points one for each direction.

https://cds.cern.ch/record/2002005/files/CERN-ACC-2015-030.pdf

jenny_ball@lemmy.world · 9 months ago

how much will this cost?