Why Physics Needs, And Deserves, A Post-LHC Collider
“If what we observe and measure is identical to what the Standard Model predicts, then we haven’t found anything new. So far, that’s what the LHC has revealed: particles that behave in perfect accord with the Standard Model.
But there might be new particles out there. There might be new physics, new forces, new interactions, new couplings, or any slew of exotic scenarios. Some of them are scenarios we haven’t even yet envisioned, but the dream of particle physics is that new data will lead the way. As we peel back the veil of our cosmic ignorance; as we probe the energy frontiers; as we produce more and more events, we start obtaining data like we’ve never had before.”
There are some big differences between theorists and experimentalists. Theorists look at the big picture, come up with their preferred hypotheses and ideas, and work to create a consistent, predictive framework that provide possible signatures of what might extend our knowledge of the Universe. But experimentalists have, as their main goal, to gather more data and probe what is currently unknown. Both work hard to extend our knowledge of the Universe, but experimental results are useful and interesting in their own right, regardless of what truths they do or do not reveal. To some, the LHC’s results, discovering a Standard Model Higgs, and nothing else new, have led to a nightmare scenario.
But the real nightmare would be if we didn’t ask the Universe the next set of questions that a future collider experiment could answer. Learn what could come next today!
Has The Large Hadron Collider Accidentally Thrown Away The Evidence For New Physics?
“It’s eminently possible that the LHC created new particles, saw evidence of new interactions, and observed and recorded all the signs of new physics. And it’s also possible, due to our ignorance of what we were looking for, we’ve thrown it all away, and will continue to do so. The nightmare scenario — of no new physics beyond the Standard Model — appears to be coming true. But the real nightmare is the very real possibility that the new physics is there, we’ve built the perfect machine to find it, we’ve found it, and we’ll never realize it because of the decisions and assumptions we’ve made. The real nightmare is that we’ve fooled ourselves into believing the Standard Model is right, because we only looked at one-millionth of the data that’s out there.”
Ten years. Over 200 Petabytes of data. That’s how long it’s been and how much data has been collected since the Large Hadron Collider first turned on. During its data-taking runs, the LHC collided bunches of protons at the incredible speed of 299,792,455 m/s: just 3 m/s slower than the speed of light. Bunches smashed together roughly every 25 nanoseconds inside each detector, and we’ve written that data down as fast as our electronics and the limits of physics will allow.
But even at that, it means that 99.9999% of the collision data needed to be discarded. We’ve only collected data from 1-in-a-million collisions, and that’s a big potential problem. We haven’t seen any evidence for physics beyond the Standard Model there, and one can’t help but wonder if maybe there’s an alternative to the nightmare scenario.
Perhaps new physics is out there, right at our fingertips, and we’ve simply missed it because of what we’ve thrown away. Perhaps the “nightmare” is one we brought upon ourselves.