High spectral purity chip-scale tunable THz generation

High-Q nonlinear integrated resonators have emerged as a new platform which has been revolutionizing many fields in contexts such as optical frequency comb, laser spectroscopy and quantum-entangled sources. In this talk, we present the generation of tunable THz radiation with high spectral purity and broad frequency tunability. Mode splitting strength and position can be changed by controlling the pump-resonance effective detuning in a dispersion-managed Si₃N₄ microresonator through a differential thermo-optic effect. Therefore, tunable optical parametric oscillation can be observed by tuning pump-resonance detuning. A broadly tunable THz radiation from 0.3 THz to over 2.5 THz is generated after injecting the tunable parametric oscillation into a bias-free photomixer at room temperature. By feedback controlling the intracavity power of the microresonator, the radiated THz signal can provide a sub-Hz linewidth. Active intracavity power stabilization improves the long-term frequency stability by eight orders of magnitude reaching a record instrument-limited frequency residual instability of 6×10^-15 in 1 second. The demonstrated chip scale tunable THz generation with high spectral purity can be used for frequency-domain THz spectroscopy.