this post was submitted on 10 Aug 2023
8 points (100.0% liked)
Science
22 readers
2 users here now
This magazine is dedicated to discussions on scientific discoveries, research, and theories across various fields, including physics, chemistry, biology, astronomy, and more. Whether you are a scientist, a science enthusiast, or simply curious about the world around us, this is the place for you. Here you can share your knowledge, ask questions, and engage in discussions on a wide range of scientific topics. From the latest breakthroughs to historical discoveries and ongoing research, this category covers a wide range of topics related to science.
founded 2 years ago
you are viewing a single comment's thread
view the rest of the comments
view the rest of the comments
Part 3 - What it means
The super computers have all the expected virtual exchanges programmed in, so if we're off enough to indicate that we don't have all the virtual exchanges programmed in, then we're missing a fifth kind of virtual exchange that needs to be programmed in, and that may mean there's a fifth force (since all virtual exchanges derive from an actual field).
However, this won't tell us WHAT it is. This is just one way of finding a path to go down. We'll need entirely different avenues to take that path down to discover the actual force. Basically, we're balancing our checkbook and the bank statement, but in the end the checkbook is off by a few dollars. So there has to be some bank transaction in the statement we forgot to write down. So this being off tells us that we're missing something, but doesn't tell us what we're missing.
Additionally, Fermilab confirmed with a sigma of 4.7, which is short of 5 sigma which is needed to claim a discovery. So spinning muons that decay in a few microseconds is pretty hard and with just random cosmic electrons and nuetrinos and what not flying through the air, there's a lot of "noise" on the wires that are measuring the spinning of those muons. So they have to keep working to get a cleaner and cleaner signal. Additionally, once they hit five sigma, they have to repeat it. And then, they have to submit their experiment so that someone else can independently do it as well and they have to hit five sigma. Because in the end, the very experiment they're doing might be what's tossing all the values off to begin with. That is their machine is just fundamentally flawed. That's that consistent but inaccurate that gets covered in high school science. Independent confirmation ensures that someone else builds a machine that aims for the exact same goal but in their own very special way.
So it's a very long road ahead, just so that it can be shown that there is indeed something missing from the calculations. But that's way better than where everyone is right now, not knowing where to look for more physics. If this all pans out, what it points to is there is a fifth force that is very, very weak and that means it'll be difficult to coax it to come out on display so that we can study it. Just the fact that on a muon were talking differences of just a few thousandths means this force is much weaker than the weak force. What role it plays? What does it mediate? No one knows, that'll have to be different experiments. In fact, just like it might not be a single transaction that throws your checkbook off from the statement, same diff, we may be talking about multiple forces, no one knows.
But like all things. This will CONFIRM we are missing some part from the standard model. And that is a big deal. Because right now, everyone thinks we're missing some critical parts, like dark matter and dark energy, but we've got equations that might be right that allows our universe to exist without dark matter and dark energy. But we don't know either way. THIS WILL CONFIRM WE'RE MISSING SOMETHING. That is hugely exciting. Not often you hear people getting excited over "WE DON'T KNOW EVERYTHING!!"