Abstract We systematically explore the phenomenology of the recently proposed extended dark matter effective field theory (eDMeft), which allows for a consistent effective description of DM scenarios across different energy scales. The framework remains applicable at collider energies and is capable of reproducing the correct relic abundance by including a dynamical mediator particle to the dark sector, while maintaining correlations dictated by gauge invariance in a ‘model-independent’ way. Taking into account present and future constraints from direct- and indirect-detection experiments, from collider searches for missing energy and for scalar resonances in vector-boson, di-jet, and Higgs-pair final states, as well as...
Determination of the nature of Dark Matter (DM) is one of the most fundamental problems of particle ...
We consider higher-dimensional effective (EFT) operators consisting of fermion dark matter (DM) conn...
Sterile neutrinos coupling only to third-generation fermions are attractive dark matter candidates. ...
We systematically explore the phenomenology of the recently proposed extended dark matter effective ...
Conventional approaches to describe dark matter phenomenology at collider and (in)direct detection e...
We present accurate and up-to-date constraints on the complete set of dimension five and six operato...
We discuss how to consistently use Effective Field Theories (EFTs) to set universal bounds on heavy-...
We discuss an interesting class of models, based on strongly coupled Dark Matter (DM), where sizable...
We discuss an interesting class of models, based on strongly coupled Dark Matter (DM), where sizable...
Abstract The usage of Effective Field Theories (EFT) for LHC new physics searches is receiving incre...
Abstract We present an effective field theory describing the relevant interactions of the Standard M...
In this article we discuss global experimental constraints on dark matter physics in two different s...
Abstract: Direct searches for WIMPs are sensitive to physics well below the weak scale. In the absen...
Effective Field Theories (EFTs) are a useful tool across a wide range of DM searches, including LHC ...
The existence of Dark Matter (DM) is observationally well established due to its gravitational inter...
Determination of the nature of Dark Matter (DM) is one of the most fundamental problems of particle ...
We consider higher-dimensional effective (EFT) operators consisting of fermion dark matter (DM) conn...
Sterile neutrinos coupling only to third-generation fermions are attractive dark matter candidates. ...
We systematically explore the phenomenology of the recently proposed extended dark matter effective ...
Conventional approaches to describe dark matter phenomenology at collider and (in)direct detection e...
We present accurate and up-to-date constraints on the complete set of dimension five and six operato...
We discuss how to consistently use Effective Field Theories (EFTs) to set universal bounds on heavy-...
We discuss an interesting class of models, based on strongly coupled Dark Matter (DM), where sizable...
We discuss an interesting class of models, based on strongly coupled Dark Matter (DM), where sizable...
Abstract The usage of Effective Field Theories (EFT) for LHC new physics searches is receiving incre...
Abstract We present an effective field theory describing the relevant interactions of the Standard M...
In this article we discuss global experimental constraints on dark matter physics in two different s...
Abstract: Direct searches for WIMPs are sensitive to physics well below the weak scale. In the absen...
Effective Field Theories (EFTs) are a useful tool across a wide range of DM searches, including LHC ...
The existence of Dark Matter (DM) is observationally well established due to its gravitational inter...
Determination of the nature of Dark Matter (DM) is one of the most fundamental problems of particle ...
We consider higher-dimensional effective (EFT) operators consisting of fermion dark matter (DM) conn...
Sterile neutrinos coupling only to third-generation fermions are attractive dark matter candidates. ...