CERN data suggests existence of 'new physics'

• Published date: 30 March 2021
• Author: TZVI JOFFRE
• Date: 30 March 2021
• Publication title: Jerusalem Post, The: Web Edition Articles (Israel)

Physicists from the Universities of Cambridge, Bristol, and Imperial College London taking part in the Large Hadron Collider beauty (LHCb) experiment at CERN led the analysis which found evidence that "beauty quarks," a type of fundamental particle, do not decay in the way they should following the Standard Model.

Beauty quarks, particles similar to but heavier than electrons, interact with all forces in the same way, so they should decay into muons and electrons at the same rate.

However, the data collected by the LHCb seems to show that these quarks are decaying into muons less often than they decay into electrons, which should only be possible if unknown particles are interfering and making them more likely to decay into electrons.

Previously collected and analyzed data from the past ten years has presented consistent results, but the newest results are more precise than the previous measurements, according to CERN – the European Council for Nuclear Research.

The data is still not strong enough to make any definitive statements, according to the University of Cambridge. The most recent data is three standard deviations from the Standard Model, meaning there is a 1 in 1,000 chance that the measurement is a statistical coincidence. The gold standard of particle physics is five standard deviations, also known as five sigma, meaning there is about a 1 in 3.5 million chance that the measurement is a statistical coincidence.

"This new result offers tantalizing hints of the presence of a new fundamental particle or force that interacts differently with these different types of particles," said Dr. Paula Alvarez Cartelle of the University of Cambridge's Cavendish Laboratory, one of the leaders of the team that found the results.

"The more data we have, the stronger this result has become. This measurement is the most significant in a series of LHCb results from the past decade that all seem to line up – and could all point towards a common explanation."

The paper has not yet been peer-reviewed.

"We were actually shaking when we first looked at the results, we were that excited. Our hearts did beat a bit faster," said Dr. Mitesh Patel of Imperial College London, one of the...