Researchers from the University of Rochester, working in the framework of cooperation with CMS based on CERN, have achieved significant success in measuring the electrosclabic mixing angle, which allows a better understanding of the standard model of particle physics.
This work explains the fundamental forces of the universe, based on experiments conducted in the Great Adron Collider (LHC), which explore conditions similar to those immediately after the big bang.
Researchers from the University of Rochester have been participating in international projects at CERN for decades. Recently, a team led by Professor of Physics Ari Bodekom has achieved significant success in measuring the electrosclous toment of monitoring (Vaiberg angle), an important parameter describing the interaction of particles and predicting phenomena in physics and astronomy.
The CMS team, consisting of physicists from around the world, aims to understand the basic laws of the universe. Leading specialists from the University of Rochester, including Physics Professor Regina Demin and Associate Professor Aran Garcia-Belido, along with post-class researchers and students, are actively involved in the project.
History of Cooperation and Discovery
CERN, the world’s largest particle physics laboratory, is renowned for its innovative discoveries and advanced experiments. Rochester scientists have been part of the CMS team for a long time, including their involvement in the opening of the Higgs boson in 2012 – particles that explain the origin of mass in the universe.
The scientists’ work involves collecting and analyzing data from the Compact Muon Solenoid detector on site.