Add to ORKGWe explore the impact of highly excited bound states on the evolution of number densities of new physics particles, specifically dark matter, in the early Universe. Focusing on dipole transitions within perturbative, unbroken gauge theories, we develop an efficient method for including around a million bound state formation and bound-to-bound transition processes. This enables us to examine partial-wave unitarity and accurately describe the freeze-out dynamics down to very low temperatures. In the non-Abelian case, we find that highly excited states can prevent the particles from freezing out, supporting a continuous depletion in the regime consistent with perturbativity and unitarity. We apply our formalism to a simplified dark matter mode...
Efforts to identify dark matter by detecting nuclear recoils produced by dark matter particles revea...
As-yet undiscovered light bosons may constitute all or part of the dark matter (DM) of our Universe,...
While the Standard Model of particle physics has undoubtedly been an experimental success, several q...
We explore the impact of non-perturbative effects, namely Sommerfeld enhancement and bound state for...
The formation and decay of metastable bound states can significantly decrease the thermal-relic dark...
We explore a new mechanism for reproducing the Dark Matter (DM) abundance: scatterings of one DM par...
A novel particle has been and still is an intriguing option to explain the strong evidence for dark ...
We present generic formulae for computing how bound state formation affects the thermal abundance of...
If the annihilation products of dark matter (DM) are non-relativistic and couples directly to a ligh...
We study the impact of bound state formation on dark matter annihilation rates in models where dark ...
Dark matter (DM) charged under a dark U(1) force appears in many extensions of the Standard Model, a...
In this paper we study the impact of a scalar exchange on the dark matter relic abundance by solving...
In order to predict the cosmological abundance of dark matter, an estimation of particle rates in an...
The thermal decoupling description of dark matter (DM) and co-annihilating partners is reconsidered....
Dark matter (DM) freeze-in through a light mediator is an appealing model with excellent detection p...
Efforts to identify dark matter by detecting nuclear recoils produced by dark matter particles revea...
As-yet undiscovered light bosons may constitute all or part of the dark matter (DM) of our Universe,...
While the Standard Model of particle physics has undoubtedly been an experimental success, several q...
We explore the impact of non-perturbative effects, namely Sommerfeld enhancement and bound state for...
The formation and decay of metastable bound states can significantly decrease the thermal-relic dark...
We explore a new mechanism for reproducing the Dark Matter (DM) abundance: scatterings of one DM par...
A novel particle has been and still is an intriguing option to explain the strong evidence for dark ...
We present generic formulae for computing how bound state formation affects the thermal abundance of...
If the annihilation products of dark matter (DM) are non-relativistic and couples directly to a ligh...
We study the impact of bound state formation on dark matter annihilation rates in models where dark ...
Dark matter (DM) charged under a dark U(1) force appears in many extensions of the Standard Model, a...
In this paper we study the impact of a scalar exchange on the dark matter relic abundance by solving...
In order to predict the cosmological abundance of dark matter, an estimation of particle rates in an...
The thermal decoupling description of dark matter (DM) and co-annihilating partners is reconsidered....
Dark matter (DM) freeze-in through a light mediator is an appealing model with excellent detection p...
Efforts to identify dark matter by detecting nuclear recoils produced by dark matter particles revea...
As-yet undiscovered light bosons may constitute all or part of the dark matter (DM) of our Universe,...
While the Standard Model of particle physics has undoubtedly been an experimental success, several q...