Spatial mode-interaction induced single soliton generation in microresonators

Daniel E Leaird,Stefan Wabnitz,Andrew M Weiner,Minghao Qi,Chengying Bao,Yi Xuan

doi:10.1364/optica.4.001011

Daniel E Leaird, Stefan Wabnitz + Show 4 more

Open Access

https://doi.org/10.1364/optica.4.001011

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Abstract

Soliton mode-locking in microresonators enables chip-scale coherent optical frequency comb generation. However, it usually leads to multi-soliton combs with a structured spectrum. Instead, the smooth spectrum of a single soliton is favored for applications. Here, we introduce, experimentally and numerically, a passive mechanism for single temporal soliton formation arising from spatial mode-interaction in microresonators. Deterministic single soliton generation is observed for microresonators with strong mode-interaction in experiments and simulations. Further simulations demonstrate that the soliton number is reduced to one in order to lower the nonlinear loss into mode-interaction induced Cherenkov radiation (CR). Our results give important insights into soliton–CR interaction in cavities.

Highlights

Kerr combs generated from high-Q microresonators open great prospects for chip-scale optical frequency synthesis [1,2]
Soliton mode-locking in the anomalous dispersion regime [6] and dark-pulse mode-locking in the normal-dispersion regime [7] enable repeatable coherent Kerr comb generation
We have revealed a passive mechanism arising from spatial mode-interaction that can result in deterministic single soliton generation in microresonators

Summary

INTRODUCTION

Kerr combs generated from high-Q microresonators open great prospects for chip-scale optical frequency synthesis [1,2]. Kerr combs are used for numerous applications, including arbitrary optical waveform generation [3], spectroscopy [4], and optical clocks [5]. Soliton mode-locking in the anomalous dispersion regime [6] and dark-pulse mode-locking in the normal-dispersion regime [7] enable repeatable coherent Kerr comb generation. The generation of Kerr combs comprising a single soliton is highly desired. Using the output comb power as a feedback signal to actively control the pump frequency is an alternative method to achieve a single soliton [10]. The revealed importance of CR–soliton interaction in cavities could affect the pulse dynamics in mode-locked lasers, where resonant radiation widely exists [24]

OBSERVATION OF DETERMINISTIC SINGLE SOLITON GENERATION

NUMERICAL SIMULATIONS ON SOLITON DYNAMICS PERTURBED BY MODE-INTERACTION

CONCLUSION