Add to ORKGAbstract. The white dwarf luminosity function is well understood in terms of standard model physics and leaves little room for exotic cooling mechanisms related to the possible existence of new weakly interacting light particles. This puts significant constraints on the parameter space of models that contain a massive dark photon and light dark sector particles
Aims.We improve the earlier restrictions on parameters of the warm dark matter (DM) in the form of ...
WIMPs can be captured in compact stars such as white dwarves (WDs) leading to an increase in the sta...
We discuss the recent discovery by Oppenheimer et al. of old, cool white dwarf stars, which may be t...
The white dwarf luminosity function, which provides information about their cooling, has been measur...
The Standard Model (SM) of particle physics has achieved remarkable success as a result of several d...
White dwarfs are the final remnants of low- and intermediate-mass stars. Their evolution is essentia...
As dense and hot bodies with a well-understood equation of state, white dwarfs offer a unique opport...
Theories with dark forces and dark sectors are of interest for dark matter models. In this paper we ...
White dwarfs cool through several processes, including the emission of weakly interacting particles ...
VirtualInternational audienceI discuss ways through which Cosmology can inform searches for Dark Sec...
International audienceThe satellite galaxies of the Milky Way (MW) are effective probes of the under...
International audienceWe discuss the consequences of the accretion of dark matter (DM) particles on ...
Matter budget in the Universe together with primordial nucleosynthesis bounds on baryonic density su...
Theories with dark forces and dark sectors are of interest for dark matter models. In this paper we ...
The evolution of white dwarfs is essentially a gravothermal process of cooling in which the basic in...
Aims.We improve the earlier restrictions on parameters of the warm dark matter (DM) in the form of ...
WIMPs can be captured in compact stars such as white dwarves (WDs) leading to an increase in the sta...
We discuss the recent discovery by Oppenheimer et al. of old, cool white dwarf stars, which may be t...
The white dwarf luminosity function, which provides information about their cooling, has been measur...
The Standard Model (SM) of particle physics has achieved remarkable success as a result of several d...
White dwarfs are the final remnants of low- and intermediate-mass stars. Their evolution is essentia...
As dense and hot bodies with a well-understood equation of state, white dwarfs offer a unique opport...
Theories with dark forces and dark sectors are of interest for dark matter models. In this paper we ...
White dwarfs cool through several processes, including the emission of weakly interacting particles ...
VirtualInternational audienceI discuss ways through which Cosmology can inform searches for Dark Sec...
International audienceThe satellite galaxies of the Milky Way (MW) are effective probes of the under...
International audienceWe discuss the consequences of the accretion of dark matter (DM) particles on ...
Matter budget in the Universe together with primordial nucleosynthesis bounds on baryonic density su...
Theories with dark forces and dark sectors are of interest for dark matter models. In this paper we ...
The evolution of white dwarfs is essentially a gravothermal process of cooling in which the basic in...
Aims.We improve the earlier restrictions on parameters of the warm dark matter (DM) in the form of ...
WIMPs can be captured in compact stars such as white dwarves (WDs) leading to an increase in the sta...
We discuss the recent discovery by Oppenheimer et al. of old, cool white dwarf stars, which may be t...