Research and collaborations
Research interests
My research largely focuses on understanding the emergent of low-energy nuclear physics directly from the fundamental theory of quark and gluons, namely quantum chromodynamics (QCD). In particular, I have been working on developing non-perturbative techniques to study properties of few-body nuclear systems. These include using a mixture of low-energy effective field theories and a numerical technique known as lattice QCD.
I am part of the Hadron Spectrum collaboration (HadSpec). This is an international collaboration with active members from JLab, Cambridge University, CERN, Trinity College in Dublin and the Tata Institute in India. The collaboration focuses on the use of Lattice QCD to understand how hadrons form and manifest themselves in the spectrum of QCD. Most hadrons appears as a short-lived excitations, known as resonances, which then proceed to decay onto multi-particle states. Consequently, we dedicate most of our efforts in developing all necessaries techniques to evaluate the resonant scattering amplitudes of multi-hadron systems.