The theory of quantum mechanics underpins our understanding of the physical world and is central to most modern technology. In the Chemical and Quantum Physics group we use the tools of quantum mechanics to investigate the atomic structure of molecular and solid state systems and make predictions about their stability, mechanical, electronic and optical properties (Chemical Physics). We also probe the laws of quantum mechanics through the theoretical analysis of a range of systems, including spin impurities, spin ensembles, quantum-dots, photonic and phononic devices and low-temperature quantum circuits (Quantum Physics).


Our group has expertise in the use of techniques such as Hartree-Fock (HF) and beyond HF theories, Density Functional Theory (DFT) and the Quantum Monte Carlo (QMC), Reverse Monte Carlo, Kinetic Monte Carlo, Molecular Dynamics and Lattice Dynamics. Our quantum physics investigations include exploring a range of phenomena including quantum optics, decoherence, entanglement, quantum measurement, multi-particle effects and the transition between phase coherent and incoherent behaviour.


For further information; see our current projects, the computational and mathematical tools and techniques we use or our publications.