A simple and well-motivated explanation for the origin of dark matter is that it consists of thermal relic particles that get their mass entirely through electroweak symmetry breaking. The simplest models implementing this possibility predict a dark matter candidate that consists of a mixture of two Dirac neutrinos with opposite isospin, and so has suppressed coupling to the Z. These models predict dark matter masses of m_{DM}~45 GeV or m_{DM}~90-95 GeV and WIMP-neutron spin-independent cross sections \sigma_{WIMP-n}~10^{-6}-10^{-8} pb. Current direct dark matter searches are probing a portion of the parameter space of these models while future experiments sensitive to \sigma_{WIMP-n}~10^{-8} pb will probe the remainder. An enhancement of t...
sometimes called cosmic microwave background (CMB) radiation. Today, with a full analysis of the dat...
We present scattering and annihilation cross sections for a number of candidates for dark matter: he...
Physics beyond the Standard Model can appear as new particles too heavy to be produced in experiment...
13 pages, 4 figures. Based on Lectures by H J de V at NuMass 2013, Milano-Bicocca, Feb 2013; at Cosm...
AbstractThe mechanism behind electroweak symmetry breaking (EWSB) and the nature of dark matter (DM)...
We investigate the possibility that dark matter is made of heavy Dirac neutrinos with mass in the ra...
Recent breakthroughs in cosmology reveal that a quarter of the Universe is composed of dark matter, ...
Recent breakthroughs in cosmology reveal that a quarter of the Universe is composed of dark matter, ...
Dark Matter constitutes more that 80% of the total amount of matter in the Universe, yet almost noth...
If Weakly Interacting Massive Particles (WIMPs) are the Dark Matter in the Galaxy, they can be detec...
The dark matter of the Abell 1689 Galaxy Cluster is modeled by thermal, non-relativistic gravitating...
Talk given at Complutense University on February 15.Abstract: The cosmic evolution of the Universe i...
The established light neutrino masses and the Dark Matter of the Universe both require physics beyon...
Dark matter may not be made of tiny particles as most scientists believe, but instead may consist of...
More than 80 years after its first postulation in modern form, the existence and distribution of dar...
sometimes called cosmic microwave background (CMB) radiation. Today, with a full analysis of the dat...
We present scattering and annihilation cross sections for a number of candidates for dark matter: he...
Physics beyond the Standard Model can appear as new particles too heavy to be produced in experiment...
13 pages, 4 figures. Based on Lectures by H J de V at NuMass 2013, Milano-Bicocca, Feb 2013; at Cosm...
AbstractThe mechanism behind electroweak symmetry breaking (EWSB) and the nature of dark matter (DM)...
We investigate the possibility that dark matter is made of heavy Dirac neutrinos with mass in the ra...
Recent breakthroughs in cosmology reveal that a quarter of the Universe is composed of dark matter, ...
Recent breakthroughs in cosmology reveal that a quarter of the Universe is composed of dark matter, ...
Dark Matter constitutes more that 80% of the total amount of matter in the Universe, yet almost noth...
If Weakly Interacting Massive Particles (WIMPs) are the Dark Matter in the Galaxy, they can be detec...
The dark matter of the Abell 1689 Galaxy Cluster is modeled by thermal, non-relativistic gravitating...
Talk given at Complutense University on February 15.Abstract: The cosmic evolution of the Universe i...
The established light neutrino masses and the Dark Matter of the Universe both require physics beyon...
Dark matter may not be made of tiny particles as most scientists believe, but instead may consist of...
More than 80 years after its first postulation in modern form, the existence and distribution of dar...
sometimes called cosmic microwave background (CMB) radiation. Today, with a full analysis of the dat...
We present scattering and annihilation cross sections for a number of candidates for dark matter: he...
Physics beyond the Standard Model can appear as new particles too heavy to be produced in experiment...