November 23, 2024

The Higgs boson could have kept our universe from collapsing

The Higgs boson, the mysterious particle that provides other particles their mass, could have kept our universe from collapsing. God particle explainedA tale of 2 HiggsIn 2012, the Large Hadron Collider attained a really huge task; this underground particle accelerator along the French-Swiss border found for the very first time the Higgs boson, a particle that had actually eluded physicists for decades. The Higgs boson is a cornerstone of the Standard Model; this particle gives other particles their mass and produces the distinction in between the weak nuclear force and the electromagnetic force.But with the excellent news came some bad. Only the regions of the multiverse that have low Higgs masses make it through and have steady expansion rates, leading to the development of galaxies, stars, planets and ultimately high-energy particle colliders.To make a multiverse with varying Higgs masses, the group had to present two more particles into the mix. The interactions of these two new particles set the mass of the Higgs in different regions of the multiverse.And those two new particles are also capable of doing other things.Time for a testThe newly proposed particles modify the strong force, leading to the charge-parity balance that exists in nature.

God particle explainedA tale of two HiggsIn 2012, the Large Hadron Collider achieved a genuinely significant feat; this underground particle accelerator along the French-Swiss border spotted for the very first time the Higgs boson, a particle that had eluded physicists for years. Just the areas of the multiverse that have low Higgs masses survive and have steady expansion rates, leading to the advancement of galaxies, stars, planets and ultimately high-energy particle colliders.To make a multiverse with varying Higgs masses, the group had to present two more particles into the mix. The interactions of these two brand-new particles set the mass of the Higgs in different regions of the multiverse.And those two brand-new particles are likewise capable of doing other things.Time for a testThe newly proposed particles modify the strong force, leading to the charge-parity balance that exists in nature.