Our new preprint concerning “Observation of Perfect Absorption in Hyperfine Levels of Molecular Spins with Hermitian Subspaces” is now available on Axviv at this link: https://arxiv.org/abs/2505.05966
Abstract: “Ideal effective parity-time (PT)-symmetry can be achieved in a passive open system by accurately balancing feeding and absorption processes. Such PT-symmetric systems display Hermitian subspaces which enable perfect absorption (PA) of radiation, i.e., all the incoming energy is absorbed by the system. In this work, we consider a passive open quantum system obtained by coupling molecular spin centers to a planar microwave resonator operating at milliKelvin temperatures and at few-photon power level. We experimentally demonstrate that Hermitian subspaces and thus PA can be implemented even in the absence of PT-symmetry, by exploiting the spin detuning to control the photon and spin content of a polariton mode. In such a way, the required balance between the feeding and the loss rates is effectively recovered. We show that Hermitian subspaces influence the overall aspect of coherent spectra of cavity QED systems and significantly enlarge the possibility to explore non-Hermitian effects in open quantum systems. We finally discuss how Hermitian subspaces can be potentially exploited for the development of efficient switches and modulators with high modulation depths over a broad spectral range.”