Our current research investigates electron transport in low-dimensional semiconductor nanostructures based on GaAs at ultra-low temperatures and high magnetic fields.Â
We investigate quantum many-body effects in condensed matter systems for discovering new fundamental quantum physics and harnessing them for future quantum technologies. The systems we are mainly interested in are 0-D, 1-D and 2-D systems electrostatically defined on the two-dimensional electron gas.Â
Some of the major, current activities:Â Â
1. Engineering electron wavefunction in low-dimensions for quantum technologiesÂ
2. Self-organised conductance fractionlisation in the 1D-2D regimeÂ
3. Wigner Crystallisation of electrons in low-dimensionsÂ
4. Spin-orbit interactions
5. Fractional Quantum Hall Effect in low-dimensional semiconductor nanostructuresÂ
6. Quantum interference effects