Low-Noise Operation of Stepped Frequency-Comb Sources Based on Phase-Code Mode-Locking

TL;DR

This paper demonstrates a method to significantly reduce noise in phase-code mode-locked lasers, enabling high-sensitivity optical coherence tomography imaging comparable to traditional methods.

Contribution

The work introduces a configuration of pulse parameters in PCML lasers that achieves over ten-fold noise reduction, improving their suitability for high-quality CR-OCT imaging.

Findings

Over ten-fold reduction in laser RIN.

Achieved 103 dB sensitivity in CR-OCT imaging.

Produced images comparable to traditional swept-source OCT.

Abstract

The phase-code mode-locked (PCML) laser provides a configurable frequency comb light source for circular-ranging optical coherence tomography systems (CR-OCT). However, prior implementations of PCML suffered from high relative intensity noise (RIN). In this work, we demonstrate that by configuring the output pulsewidth and pulse separation in relation to the linewidth of the intracavity Fabry-Perot etalon, low-noise operation can be achieved. We observed a more than ten-fold reduction in laser RIN that enabled CR-OCT imaging with a sensitivity of 103 dB with 35 mW delivered to the sample and provided images that are qualitatively comparable to those acquired using traditional swept-source methods.