# Group-velocity-locked vector soliton molecules in a   birefringence-enhanced fiber laser

**Authors:** Yiyang Luo, Jianwei Cheng, Bowen Liu, Qizhen Sun, Lei Li, Songnian Fu,, Dingyuan Tang, Luming Zhao, Deming Liu

arXiv: 1704.00957 · 2017-04-05

## TL;DR

This paper reports the first experimental observation of group-velocity-locked vector soliton molecules in a birefringence-enhanced fiber laser, revealing complex multi-soliton interactions and formations in a novel laser setup.

## Contribution

It introduces a birefringence-enhanced fiber laser enabling the generation and observation of GVLVS molecules, a new type of multi-soliton complex in fiber lasers.

## Key findings

- Observation of GVLVS molecules with various soliton separations
- Coupling of orthogonally polarized components into multi-soliton complexes
- Spectral fringes and double-humped profiles support soliton molecule formation

## Abstract

Physics phenomena of multi-soliton complexes have enriched the life of dissipative solitons in fiber lasers. By developing a birefringence-enhanced fiber laser, we report the first experimental observation of group-velocity-locked vector soliton (GVLVS) molecules. The birefringence-enhanced fiber laser facilitates the generation of GVLVSs, where the two orthogonally polarized components are coupled together to form a multi-soliton complex. Moreover, the interaction of repulsive and attractive forces between multiple pulses binds the particle-like GVLVSs together in time domain to further form compound multi-soliton complexes, namely GVLVS molecules. By adopting the polarization-resolved measurement, we show that the two orthogonally polarized components of the GVLVS molecules are both soliton molecules supported by the strongly modulated spectral fringes and the double-humped intensity profiles. Additionally, GVLVS molecules with various soliton separations are also observed by adjusting the pump power and the polarization controller.

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Source: https://tomesphere.com/paper/1704.00957