Litcius/Paper detail

Palm-sized, vibration-insensitive, and vacuum-free all-fiber-photonic module for 10−14-level stabilization of CW lasers and frequency combs

Igju Jeon, Changmin Ahn, Chankyu Kim, Seongmin Park, Wonju Jeon, Lingze Duan, Jungwon Kim

2023APL Photonics23 citationsDOIOpen Access PDF

Abstract

Compact and robust frequency-stabilized laser sources are critical for a variety of fields that require stable frequency standards, including field spectroscopy, radio astronomy, microwave generation, and geophysical monitoring. In this work, we applied a simple and compact fiber ring-resonator configuration that can stabilize both a continuous-wave laser and a self-referenced optical frequency comb to a vibration-insensitive optical fiber delay-line. We could achieve a thermal-noise-limited frequency noise level in the 10 Hz–1 kHz offset frequency range for both the continuous-wave laser and the optical frequency comb with the minimal frequency instability of 2.7 × 10−14 at 0.03-s and 2.6 × 10−14 at 0.01-s averaging time, respectively, under non-vacuum conditions. The optical fiber spool, working as a delay reference, is designed to be insensitive to external vibrations, with a vibration sensitivity of sub-10−10 (1/g) and a volume of 32 ml. Finally, the ring-resonator setup is packaged in a palm-sized aluminum case with 171-ml volume with a vibration-insensitive spool, as well as an even smaller 97-ml-volume case with an ultracompact 9-ml miniaturized fiber spool.

Topics & Concepts

OpticsLaserFrequency combResonatorOptical fiberMaterials scienceVibrationContinuous waveFree spectral rangeFiber laserOptical cavitySingle-mode optical fiberPhysicsAcousticsOptoelectronicsAdvanced Fiber Laser TechnologiesAdvanced Frequency and Time StandardsAdvanced Fiber Optic Sensors