My research is focused on nuclear and high-energy phenomenology, and in particular the interplay of these fields. I work on low-energy precision tests and searches for beyond-the-Standard Model physics such as electric dipole moments, dark matter direct detection, hadronic parity violation, and neutrinoless double beta decay. I study the the hadronic and nuclear aspects of these searches and the connection to lattice QCD, as well as the associated particle physics phenomenology and sometimes the implications for cosmology. I am particularly interested in how high-energy collider and low-energy precision experiments complement each other.

My research is heavily based on effective field theory (EFT) such as chiral perturbation theory, EFTs of nuclear forces, and the Standard Model EFT.

More details can be found in my Inspires profile: