My research is on topics in theoretical physics, in particular astroparticle and high energy physics. One of my primary research interests is the asymmetric dark matter scenario in which the dark matter relic density is set by a particle asymmetry and can be related to the asymmetry in baryons, thus providing an explanation for why the observed densities of dark and visible matter are comparable. I am also involved with aspects of LHC phenomenology, specifically, I am currently interested in LHC constraints on dark matter and the impact of the recent Higgs discovery on beyond the standard model physics, in particular supersymmetric standard models.


Exodus: Hidden origin of dark matter and baryons

The impact of heavy-quark loops on LHC dark matter searches

Precision Unification in ╬╗SUSY with a 125 GeV Higgs

Closing in on Asymmetric Dark Matter I: Model independent limits for interactions with quarks

A sharp 141 GeV Higgs prediction from environmental selection

Vacuum stability and the Cholesky decomposition

Further details of these publications can be found here.