Abstract
In this article, we propose different background models of extended theories of gravity, which are minimally coupled to the SM fields, to explain the possibility of genesis of dark matter without affecting the SM particle sector. We modify the gravity sector by allowing quantum corrections motivated from (1) local $f(R)$ gravity and (2) non-minimally coupled gravity with SM sector and dilaton field. Next we apply conformal transformation on the metric to transform the action back to the Einstein frame. We also show that an effective theory constructed from these extended theories of gravity and SM sector looks exactly the same. Using the relic constraint observed by Planck 2015, we constrain the scale of the effective field theory ($\Lambda_{UV}$) as well as the dark matter mass ($M$). We consider two cases- (1) light dark matter (LDM) and (2) heavy dark matter (HDM), and deduce upper bounds on thermally averaged cross section of dark matter annihilating to SM particles. Further we show that our model naturally incorporates self interactions of dark matter. Using these self interactions, we derive the constraints on the parameters of the (1) local $f(R)$ gravity and (2) non-minimally coupled gravity from dark matter self interaction. Finally, we propose some different UV complete models from a particle physics point of view, which can give rise to the same effective theory that we have deduced from extended theories of gravity.
Highlights
Different cosmological measurements have confirmed that majority of the matter in this universe occurs in the form of a non-luminous “dark matter” (DM)
This is clearly the case here, because when we consider indirect detection of DM, where two DM particles annihilate to two Standard model (SM) particles, the momentum transferred in the process is of the order of the DM mass, which is clearly less than the energy scales considered
We propose background models of extended theories of gravity, which are minimally coupled to SM fields
Summary
Different cosmological measurements have confirmed that majority of the matter in this universe occurs in the form of a non-luminous “dark matter” (DM). Further to implement the constraint from observational probes on the relic density of the dark matter we use the tools and techniques of effective field theory in the present setup. We start with a model where the usual Einstein gravity is minimally coupled with the SM sector Such a theory is not able to explain the genesis of dark matter at all. To explain this possibility without affecting the SM particle sector, we modify the gravity sector by allowing quantum corrections motivated from (1) local f (R) gravity and (2) a non-minimally coupled dilaton with gravity and SM sector. We have shown that the UV completion of this effective theory does not need to come from modifications to the matter sector, but rather from extensions of the gravity sector. In Sect. 7, we conclude with future prospects from the present work
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