The number of kaon to pion and neutrino/antineutrino decays the team observed is higher than the 8.4 per 100 billion predicted by the Standard Model, but it’s still within the uncertainty parameters.
So then how the fuck does that hint at new physics? Idiots.
The basic procedure at CERN is that in order to be certain about something that’s super random is to conduct the experiment trillions of times until you get a couple thousand events and you get to beat down your error. If they startseeing something, it’ll still take them a couple of years of data to prove it past their uncertainty requirements.
They demonstrated the event to five sigma certainty, which is significant, but it’s within the uncertainty in the standard model. If they can demonstrate the same or similar things to greater exactness, it could guide research that changes the standard model
So then how the fuck does that hint at new physics? Idiots.
The basic procedure at CERN is that in order to be certain about something that’s super random is to conduct the experiment trillions of times until you get a couple thousand events and you get to beat down your error. If they startseeing something, it’ll still take them a couple of years of data to prove it past their uncertainty requirements.
LOL yes I know thanks.
It’s a HINT, not a certainty 😘
What is?
They demonstrated the event to five sigma certainty, which is significant, but it’s within the uncertainty in the standard model. If they can demonstrate the same or similar things to greater exactness, it could guide research that changes the standard model
You’re just repeating the article. Nothing you said contradicts what I said.