We propose a novel mechanism with two component dark matter models. The subdominant dark matter can thermalize the dominant one in galaxies, and leads to core density profiles. Using ultralight dark photons and $\mathrm{GeV}$-$\mathrm{TeV}$ Dirac fermions as an example, we couple the two dark matter candidates with a $U(1)$ interaction. This mechanism differs from self-interacting dark matter, due to three effects: (1) higher occupation numbers, (2) forward-backward scattering cancellation, and (3) the multiple scatterings required for the heavy dark matter. Furthermore, the Bullet Cluster bound is evaded due to the reduced Bose enhancement factor. Unlike the fuzzy dark matter solution to the small structure problems which have tension with...
This thesis aims to address some of the issues plaguing the Standard Model of particle physics and c...
We consider a dark sector model containing stable fermions charged under an unbroken U(1) gauge inte...
This is the published version. Copyright 2014 American Physical SocietyThe nature of dark matter is ...
The increasing observational pressure on the standard cosmological model motivates analyses going be...
International audienceThe increasing observational pressure on the standard cosmological model motiv...
We present a dark matter model reproducing well the results from DAMA/LIBRA and CoGeNT and having no...
The increasingly significant tensions within ΛCDM, combined with the lack of detection of dark matte...
We study a two-component dark matter model consisting of a Dirac fermion and a complex scalar charge...
Modern Cosmology offers us a great understanding of the universe with striking precision, made possi...
Weakly Interacting Massive Particles are often said to be the best Dark Matter candidates. Studies h...
We explore some of the consequences of Dark Matter-photon interactions on structure formation, focus...
none1no(Abridged) Present cosmological constraints and the absence of a direct detection and ide...
We study the imprints of secluded dark sectors with a mass gap and self-interactions on the matter p...
We present four dark sector models with novel phenomena beyond the weakly-interacting massive partic...
We consider the implications of an ultra-light fermionic dark matter candidate that carries baryon n...
This thesis aims to address some of the issues plaguing the Standard Model of particle physics and c...
We consider a dark sector model containing stable fermions charged under an unbroken U(1) gauge inte...
This is the published version. Copyright 2014 American Physical SocietyThe nature of dark matter is ...
The increasing observational pressure on the standard cosmological model motivates analyses going be...
International audienceThe increasing observational pressure on the standard cosmological model motiv...
We present a dark matter model reproducing well the results from DAMA/LIBRA and CoGeNT and having no...
The increasingly significant tensions within ΛCDM, combined with the lack of detection of dark matte...
We study a two-component dark matter model consisting of a Dirac fermion and a complex scalar charge...
Modern Cosmology offers us a great understanding of the universe with striking precision, made possi...
Weakly Interacting Massive Particles are often said to be the best Dark Matter candidates. Studies h...
We explore some of the consequences of Dark Matter-photon interactions on structure formation, focus...
none1no(Abridged) Present cosmological constraints and the absence of a direct detection and ide...
We study the imprints of secluded dark sectors with a mass gap and self-interactions on the matter p...
We present four dark sector models with novel phenomena beyond the weakly-interacting massive partic...
We consider the implications of an ultra-light fermionic dark matter candidate that carries baryon n...
This thesis aims to address some of the issues plaguing the Standard Model of particle physics and c...
We consider a dark sector model containing stable fermions charged under an unbroken U(1) gauge inte...
This is the published version. Copyright 2014 American Physical SocietyThe nature of dark matter is ...