学术文献库

High-coherence light sources with an ultra-narrow linewidth are of considerable research interests in numerous fields, such as laser interferometer gravitational-wave observatory, laser radio, etc. Herein, commencing from the in-depth analysis for consumption and replenishment law of the carriers in the gain-band under excitation of the feedback signal, a compression idea to compress extremely laser linewidth assisted by distributed feedback has been proposed. Consequentially, a novel laser configuration is demonstrated. A cavity mode signal matching with the output wavelength is fed back into the main cavity by the distributed feedback structure to provide an excitation signal required for laser gain. Moreover, the corresponding experimental investigation is conducted based on an on-chip laser system with distributed feedback. Eventually, an ultra-narrow linewidth laser with a side mode suppuration ratio of 80 dB, a linewidth of 10 Hz, a Lorentzian linewidth of sub Hz, and a relative intensity noise (RIN) of -150 dB/Hz is obtained under normal conditions. The proposed idea is valid in any other gain-types lasers with diverse wavelengths, which also provides a new perspective for other laser parameters for extreme modulation.