Higgsogenesis might explain dark matter

The recently discovered Higgs boson is best known for its important role in explaining particle mass. But now some physicists are wondering if the Higgs could have played an equally significant role in generating dark matter and baryonic matter in the early Universe, as well as causing the hypothetical dark matter asymmetry and the observed baryon asymmetry between matter and antimatter particles.

In a new paper published in Physical Review Letters, physicists Géraldine Servant at CERN, the Autonomous University of Barcelona, and CEA Saclay in France, and Sean Tulin at the University of Michigan in Ann Arbor, call this theoretical scenario “Higgsogenesis.”

“With the Higgs discovery, the final piece of the Standard Model of particle physics has been put into place,” Servant told Phys.org. “Now, it is a natural question to ask: could the Higgs boson have been important in the early Universe to help explain two observational puzzles that the Standard Model cannot: the origin of dark matter and the matter-antimatter asymmetry? In the very early Universe, the Higgs particle was distinct from its antiparticle. We show that an asymmetry between Higgs and anti-Higgs might have been the missing link connecting the densities of visible and dark matter, which observationally are quite similar.”

This Higgs could have provided the missing link in one of two ways. One possibility is that, if there were a dark matter asymmetry in the early Universe, then this asymmetry could have transferred to an asymmetry between the Higgs and the anti-Higgs, which then could have transferred to a baryon asymmetry between matter and antimatter. Another possibility is that this sequence could have happened in reverse, where a baryon asymmetry first transferred to a Higgs asymmetry, which then transferred to a dark matter asymmetry.

In both cases, the Higgs provides a “portal” through which asymmetries can flow from the dark sector to the visible sector or vice versa. In these scenarios, dark matter would have an asymmetry just like baryonic matter. The physicists proposed two new fermions that couple to the Higgs boson that could have mediated the asymmetry transfers. Via physorg

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