Ten years after its “monumental” discovery, scientists say there is yet more to study about the Higgs boson, the “God particle” that gives everything mass and keeps the fundamental fabric of the world together.
Higgs Boson: The God Particle
The “Big Bang” atom-smasher, the Large Hadron Collider (LHC), is located near Geneva and is where the important particle was discovered. Cern, the European Organization for Nuclear Research, first reported the discovery exactly ten years ago.
Scientists have made significant advancements in our knowledge of the cosmos thanks to the progress done since then to establish its attributes.
An essential component of nature, the mass of the Higgs boson, which is unpredicted by the Standard Model, has been measured by scientists.
The mass of the Higgs boson may also affect other characteristics, such as the top quark’s mass, which is the heaviest known fundamental particle, as well as the sustainability of the vacuum of the cosmos.
However, scientists claim that there are still a lot of unsolved issues concerning the particle, such as whether it can react with dark matter and shed light on this enigmatic type of stuff.
Research On The Higgs Boson
Other open concerns include whether the Higgs boson has twins and perhaps relatives, and what causes the mass & self-interaction of the particle.
The Standard Model, which represents the network of particles, forces, and events that make up the cosmos, relies heavily on the Higgs finding.
There couldn’t possibly be a Standard Model universe without the Higgs boson, which gives matter mass as well as weight.
Scientists claim information from the upcoming 3rd run (Run 3) of LHC or by the collider’s massive improvement, the high-luminosity LHC, starting in 2029, may help to resolve some of the unanswered concerns.
Proton collisions can resume now that the LHC has been restarted and is operating at full speed following planned updates and upkeep.
On Tuesday, a fresh round of data collection will start. The LHC will operate continuously at quite a record energy for nearly four years, offering greater accuracy as well as exploration potential than before.
The tests will allow researchers to study the Higgs boson’s nature with unparalleled accuracy and through novel pathways.
Additionally, they will research the characteristics of matter at high temperatures and densities while looking for potential candidates for the existence of dark matter and other novel phenomena, as reported by Irishexaminer.com.