Protons Collide At 13 TeV For the First Time At the LHC

An anonymous reader writes to let everyone know the LHC has now smashed protons together at 13 TeV, the highest energy level yet achieved. They've posted the first images captured from the collisions, and explained the testing process as well. Jorg Wenninger of the LHC Operations team says, "When we start to bring the beams into collision at a new energy, they often miss each other. The beams are tiny – only about 20 microns in diameter at 6.5 TeV; more than 10 times smaller than at 450 GeV. So we have to scan around – adjusting the orbit of each beam until collision rates provided by the experiments tell us that they are colliding properly." Spokesperson Tiziano Camporesi adds, "The collisions at 13 TeV will allow us to further test all improvements that have been made to the trigger and reconstruction systems, and check the synchronisation of all the components of our detector."

Re:Results

[ganjadude]

well this was actually a calibration not a "test". From my understanding to make sure no stray particles are going "off track" they ran this test. So while it is the first time its been run to full power, it wasnt for any reason other than calibration. Now, I dont know if they are collecting and running any data on the collisions that did happen

Re:The begining

The particle is something that very much resembles a minimal Standard Model Higgs, to the point of being presently indistinguishable from any other proposed Higgs model. At 14TeV and with increased luminosity it's hoped that various proposed splittings will become visible in the data, ruling many possible alternate theories out (or in!).

What we're really expecting to see is the first direct proof of beyond-the-standard-model physics. There are corrections to various physics processes going on whose contributions to observable quantities, if you only plug in known particles/interactions, basically increase without bound at higher energies (these are the "radiative corrections" we hear about). At much past 1-2 TeV/parton (or 6-12TeV/proton), the resulting quantities and cross sections predicted go looney tunes (specifically, weak interactions violate unitarity and we end up with probabilities larger than 1 - oh teh noez!).

It's considered almost guaranteed that we must see *something* outside of the standard model at these energies, because the standard model blows up but physics, of course, does not.