@article {3255, title = {Spin-selective strong light-matter coupling in a 2D hole gas-microcavity system}, year = {2023}, month = {2/12/2023}, abstract = {

The interplay between time-reversal symmetry breaking and strong light-matter coupling in 2D gases brings intriguing aspects to polariton physics. This combination can lead to polarization/spin selective light-matter interaction in the strong coupling regime. In this work, we report such a selective strong light-matter interaction by harnessing a 2D gas in the quantum Hall regime coupled to a microcavity. Specifically, we demonstrate circular-polarization dependence of the vacuum Rabi splitting, as a function of magnetic field and hole density. We provide a quantitative understanding of the phenomenon by modeling the coupling of optical transitions between Landau levels to the microcavity. This method introduces a control tool over the spin degree of freedom in polaritonic semiconductor systems, paving the way for new experimental possibilities in light-matter hybrids.

}, url = {https://arxiv.org/abs/2302.06023}, author = {Daniel G. Suarez-Forero and Deric Weston Session and Mahmoud Jalali Mehrabad and Patrick Knuppel and Stefan Faelt and Werner Wegscheider and Mohammad Hafezi} }