Add to ORKGWeakly Interacting Massive Particles (WIMPs) are among the best-motivated dark matter candidates. In the standard scenario where the freeze-out happens well after the end of inflationary reheating, they are in tension with the severe experimental constraints. Here, we investigate the thermal freeze-out of WIMPs occurring {\it during} reheating, while the inflaton $\phi$ coherently oscillates in a generic potential $\propto \phi^n$. Depending on the value of $n$ and the spin of the inflaton decaying products, the evolution of the radiation and inflaton energy densities can show distinct features, therefore, having a considerable impact on the freeze-out behavior of WIMPs. As a result of the injection of entropy during reheating, the paramete...
We discuss the production of radiation and dark matter assuming a time-dependent inflaton decay rate...
There are many reasons to believe the present mass density of the universe is dominated by a weakly ...
The thermal history of the universe before the epoch of nucleosynthesis is unknown. The maximum temp...
Weakly- and Feebly-Interacting Massive Particles (WIMPs and FIMPs) are among the best-motivated dark...
We study the possibility that, after inflation, the inflaton reaches thermal equilibrium with the St...
If the reheating temperature at the end of inflation is low, of order 10 MeV, then dark matter produ...
We study slow roll single field inflationary scenario and the production of non-thermal fermionic da...
We study general freeze-out scenarios where an arbitrary number of initial and final dark matter par...
Electroweak Symmetry Breaking (EWSB) is known to produce a massive universe that we live in. However...
We study the general properties of the freezeout of a thermal relic. We give analytic estimates of t...
We describe the evolution of Dark Matter (DM) abundance from the very onset of its creation from inf...
The mystery of dark matter (DM) has intrigued scientists for many decades. The type of DM particles ...
Understanding the nature of the Dark Matter (DM) is one of the current challenges in modern astrophy...
We explore a new mechanism for reproducing the Dark Matter (DM) abundance: scatterings of one DM par...
Dark matter may only interact with the visible sector efficiently at energy scales above the inflato...
We discuss the production of radiation and dark matter assuming a time-dependent inflaton decay rate...
There are many reasons to believe the present mass density of the universe is dominated by a weakly ...
The thermal history of the universe before the epoch of nucleosynthesis is unknown. The maximum temp...
Weakly- and Feebly-Interacting Massive Particles (WIMPs and FIMPs) are among the best-motivated dark...
We study the possibility that, after inflation, the inflaton reaches thermal equilibrium with the St...
If the reheating temperature at the end of inflation is low, of order 10 MeV, then dark matter produ...
We study slow roll single field inflationary scenario and the production of non-thermal fermionic da...
We study general freeze-out scenarios where an arbitrary number of initial and final dark matter par...
Electroweak Symmetry Breaking (EWSB) is known to produce a massive universe that we live in. However...
We study the general properties of the freezeout of a thermal relic. We give analytic estimates of t...
We describe the evolution of Dark Matter (DM) abundance from the very onset of its creation from inf...
The mystery of dark matter (DM) has intrigued scientists for many decades. The type of DM particles ...
Understanding the nature of the Dark Matter (DM) is one of the current challenges in modern astrophy...
We explore a new mechanism for reproducing the Dark Matter (DM) abundance: scatterings of one DM par...
Dark matter may only interact with the visible sector efficiently at energy scales above the inflato...
We discuss the production of radiation and dark matter assuming a time-dependent inflaton decay rate...
There are many reasons to believe the present mass density of the universe is dominated by a weakly ...
The thermal history of the universe before the epoch of nucleosynthesis is unknown. The maximum temp...