An integrated widely tunable linear isolator based on electro-optic Autler-Townes splitting

Abstract: Optical isolators are essential for laser protection and robust signal routing, but the incorporation of the necessary magneto-optic (MO) materials in foundries has remained a challenge. As an alternative, several integrated non-magnetic isolators based on acousto-optic (AO) and electro-optic (EO) spatio-temporal modulation have been proposed. Unlike MO isolators, these solutions are wavelength agnostic, though few published demonstrations reach performance that is comparable to MO devices. The most significant remaining concerns are on mitigating undesirable sidebands, lowering power consumption, achieving wide bandwidth or wide tunability, and having a design that is practical to deploy. Here we demonstrate a compact EO optical isolator, using thin film lithium niobate, that produces a very high isolation figure of merit (>32 dB contrast per dB of insertion loss) with THz-scale (8 nm) tunability and, due to its architecture, achieves linear operation with negligible sideband generation. The device uses a 20x smaller interaction length and consumes 64x less power compared to the state-of-the-art EO and AO architectures, without being subject to many of their technical constraints.