Abstract
We discuss the Higgs mass and cosmological constant in the context of an emergent Standard Model, where the gauge symmetries "dissolve" in the extreme ultraviolet. In this scenario the cosmological constant scale is suppressed by power of the large scale of emergence and expected to be of similar size to neutrino masses. Cosmology constraints then give an anthropic upper bound on the Higgs mass.
Highlights
The XXVI Cracow Epiphany Conference was dedicated to the Large Hadron Collider (LHC) Physics and was focused on both the Standard Model (SM) and Beyond SM phenomenology
The LHC accelerator is truly a multipurpose machine, where physicists conduct research from various topics belonging to particle physics
Experimental talks were accompanied by excellent reviews from theoretical physicists
Summary
The XXVI Cracow Epiphany Conference was dedicated to the Large Hadron Collider (LHC) Physics and was focused on both the Standard Model (SM) and Beyond SM phenomenology. Both experimental and theoretical results were discussed. The conference was divided into the following thematic sessions: The LHC is currently the biggest particle accelerator in the world. It just completed its second run of data taking campaigns.
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