Light spin-0 particles are ubiquitous in extensions of the Standard Model. The probably best-known instance are axions, advocated to solve the strong-CP problem. Those are hypothetical CP-odd scalar particles, whose mass is protected by shift symmetries, causing them to remain naturally light and to have suppressed couplings to ordinary matter. As well-known, these particles may well play a cosmological role, and could represent a sizable component of Dark Matter.
A further, general argument in favour of the existence of light spinless particles is furnished by string theories, whose vacuum generally features several moduli describing the geometric properties of the extra spacial dimensions. Thus, the relevance of such particles branches out from collider physics, to astrophysics, to cosmology, to formal aspects.
The workshop aims at representing some of the most interesting recent developments on this exciting, active, interdisciplinary subject of research.
The workshop is structured into a one-day mini-school (on Tue 5), covering a selected number of subjects, followed by two days of talks. Such format is intended to maximize the dialogue between the theoretical and the experimental communities, and to actively involve students.
Confirmed lecturers include:
This event is organized within the context of the GDR Intensity Frontier, with support from the ERC nEDM, from the CPTGA and from the IDEX Université Grenoble Alpes "Initiatives de recherche stratégiques" pragma-Higgs.
This workshop is a follow-up to the very successful 2017 edition : The strong CP puzzle and axions.
Videos of lectures and talks will available after the conference.