arXiv:2511.16895v1 Announce Type: new
Abstract: Non-reciprocity is a key resource for pushing the performance of photonic devices beyond the fundamental limits imposed by Lorentz reciprocity. Here, we report on the realization of an optical sensor where non-reciprocal light propagation allows detecting small perturbations with a signal-to-noise ratio (SNR) that scales exponentially with system size. Our approach is based on encoding two Hatano-Nelson (HN) chains, which is equivalent to the bosonic Kitaev model, within the resonant modes of an electro-optics frequency comb. Non-reciprocal light propagation in the frequency domain is realized through simultaneous phase and amplitude modulation of the circulating field inside the optical fiber cavity. We demonstrate the sensing of a small modulating tone coupling the two HN chains with a SNR that scales exponentially with the lattice size, formed from up to 70 frequency modes per chain. Our results open a new paradigm in non-Hermitian sensing, with potential applications in remote sensing including the optical readout of superconducting circuits.