Dichromatic Soliton‐Molecule Compounds in Mode‐Locked Fiber Lasers-Reference-Cited by-同舟云学术

Dichromatic Soliton‐Molecule Compounds in Mode‐Locked Fiber Lasers

Published:2024-02-15 Issue:6 Volume:18 Page:
ISSN:1863-8880
Container-title:Laser & Photonics Reviews
language:en
Short-container-title:Laser & Photonics Reviews

Author:

Cui Yudong¹²,Yao Xiankun³,Hao Xiang¹,Yang Qing¹,Chen Daru⁴⁵,Zhang Yusheng⁴⁵^ORCID,Liu Xu¹²,Sun Zhipei⁶,Malomed Boris A.⁷⁸

Affiliation:

1. State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering Zhejiang University Hangzhou 310027 P. R. China

2. ZJU‐Hangzhou Global Scientific and Technological Innovation Center No.733 Jianshe San Road, Xiaoshan District Hangzhou Zhejiang 311200 P. R. China

3. School of Physics Northwest University Xi'an 710127 P. R. China

4. Hangzhou Institute of Advanced Studies Zhejiang Normal University Hangzhou 311231 P. R. China

5. Key Laboratory of Optical Information Detection and Display Technology of Zhejiang Zhejiang Normal University Jinhua 321004 P. R. China

6. Department of Electronics and Nanoengineering and QTF Centre of Excellence Aalto University Aalto FI‐02150 Finland

7. Department of Physical Electronics Faculty of Engineering and Center for Light‐Matter Interaction Tel Aviv University Tel Aviv 69978 Israel

8. Instituto de Alta Investigación Universidad de Tarapacá Casilla 7D Arica 1000000 Chile

Abstract

AbstractSoliton “molecules”, i.e., bound states of two or several solitons, represent a fundamental concept, which manifests itself in various nonlinear systems. They are dynamically similar to chemical molecules, attracting great interest to fundamental studies and offering potential applications (such as multilevel encoding of optical data). Here, the study demonstrates a novel dichromatic soliton‐molecule compounds (DSMC) built as a hybrid bound state of multiple bound soliton pulses carried by two wavelengths in a fiber laser. The DSMCs are maintained by two different binding mechanisms, viz., the self‐phase modulation (SPM) interaction between temporal solitons at the same wavelength, mediated by their tails, and the cross‐phase modulation (XPM) interaction between solitons at different wavelengths. They also exhibit unique temporal and spectral vibration profiles. Both static DSMCs and ones with robust internal vibrations are generated experimentally in the fiber laser, and numerically as solutions of the corresponding dissipative nonlinear model. The findings reported here expand the concept of soliton molecules and further promote their similarity to chemical molecules.

Funder

National Natural Science Foundation of China

Natural Science Foundation of Zhejiang Province

Zhejiang Normal University

Israel Science Foundation

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/lpor.202300471

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