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Why can't atom smashers have more than two beams?

What if we had 4, 6 or even 8 beams all smashing into the same spot?
  [vote for,

You wouldn't have to have a 25mile ring if you had 10 to 20 beams all going around in a big sphere!

Instead of having a giant ring, we would have a giant sphere, looking like a giant basketball.

Is there some law of magnets that says you can't have a sphere shaped collider? We would get way more power!


Spencerbug, Apr 30 2010


       There are two beams because a collision happens between two particles.   

       The aim is not to put a lot of energetic particles in the general area, it is to maximize the energy of each collision. The beams cross at an angle close to head-on, so that the kinetic energies add up.   

       (The 25 mile ring is necessary to keep a very fast beam contained in a circular path using a magnetic field; Tighter rings would require even stronger magnets, which we can't make, and i believe more energy loss from the beam through synchrotron radiation)
arvin, Apr 30 2010

       An interesting idea with two problems. First, the reason Particle Accelerators are so massive is because they need a ton of space to accelerate up to relativistic speeds. So your basketball needs to be a few kilometers in diameter at least. Plus, by making the think three-dimensional you have to put separate accelerators on each of your vectors, rather than using a single one for both like we do now. Second, if the above problems can be solved (and they can, being purely logistical), this device won't actually increase the rate of collision exponentially (only it's cost). Think about it: if two adjacent vectors manage to trigger a collision, the particles will be striking at an acute angle rather than smashing into each other head on. I think you'd be lucky to get a real collision rather than a ricochet out of any two vectors that weren't directly in-line with one another. So really all we've done is build more Accelerators in a needlessly complex fashion, you'd be better served to just start building the normal kind in parallel. Still, it was an interesting idea, and you should be congratulated for thinking in three dimensions- it's not an easy leap to make for most people. Oh, and yes: Go LHC.
victory, Apr 30 2010


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