Laser cavity-soliton microcombs

(13960278), Hualong Bao; Little, Brent E.; Oppo, Gian‐Luca; Morandotti, Roberto; Moss, David; (4822308), Sai T Chu; (13960143), Brent E Little; (3958955), Gian-Luca Oppo; (3962036), Roberto Morandotti; (13960146), David J Moss; (3978341), Benjamin Wetzel; (4464661), Marco Peccianti; (4464712), Alessia Pasquazi

articleStrathprints: The University of Strathclyde institutional repository (University of Strathclyde)Jun 30, 2019GREEN OA

Laser cavity-soliton microcombs

HBHualong Bao (13960278)BEBrent E. Little GOGian‐Luca Oppo RMRoberto Morandotti DMDavid Moss

University of Sussex

Abstract

Microcavity-based frequency combs, or ‘microcombs’1,2, have enabled many fundamental breakthroughs3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21 through the discovery of temporal cavity-solitons. These self-localized waves, described by the Lugiato–Lefever equation22, are sustained by a background of radiation usually containing 95% of the total power23. Simple methods for their efficient generation and control are currently being investigated to finally establish microcombs as out-of-the-lab tools24. Here, we demonstrate microcomb laser cavity-solitons. Laser cavity-solitons are intrinsically background-free and have underpinned key breakthroughs in semiconductor lasers22,25,26,27,28. By merging their…

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Authors

13

HB
Hualong Bao (13960278)
University of Sussex
BE
Brent E. Little
University of Sussex
GO
Gian‐Luca Oppo
University of Sussex
RM
Roberto Morandotti
University of Sussex
DM
David Moss
University of Sussex

Topics & keywords

Topics

Keywords

Soliton
Physics
Laser
Power (physics)
Multi-mode optical fiber
Limit (mathematics)
Optics
Optoelectronics

UN Sustainable Development Goals

Affordable and clean energy

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