Recent theoretical advancements have enhanced the understanding of the Higgs boson’s properties, focusing on its cross-section during gluon-gluon collisions. This research highlights the relevance of higher-order corrections and confirms the predictions of the Standard Model, with further investigations expected to clarify the potential for new physics. New research confirms the Standard Model’s predictions about the Higgs boson while suggesting future data may reveal unknown aspects of particle physics.
The Higgs boson was discovered in the detectors of the Large Hadron Collider a dozen or so years ago. It has proved to be a particle so difficult to produce and observe that, despite the passage of time, its properties are still not known with satisfactory accuracy . Now we know a little more about its origin, thanks to the just-published achievement of an international group of theoretical physicists with the participation of the Institute of Nuclear Physics of the Polish Academy of Sciences.
Higgs Boson Discovery The scientific world is unanimous in its opinion that the greatest discovery made with the Large Hadron Collider (LHC) is the famous Higgs boson. For twelve years, physicists have been trying to learn as precisely as possible about the properties of this very important elementary particle. The task is extremely difficult due to both the experimental challenges and numerous computational hurdles.
Fortunately, significant progress has just been made in theoretica.