Longitudinally thickness-controlled nanofilms on exposed core fibres enabling spectrally flattened supercontinuum generation  

作　　者：Tilman A.KLühder Henrik Schneidewind Erik P.Schartner Heike Ebendorff-Heidepriem Markus A.Schmidt 

机构地区：[1]Leibniz Institute of Photonic Technology,Albert-Einstein-Str.9,07745 Jena,Germany [2]School of Physical Sciences and ARC Centre of Excellence for Nanoscale BioPhotonics(CNBP)and Institute for Photonics and Advanced Sensing(IPAS),The University of Adelaide,Adelaide SA 5005,Australia [3]Otto Schott Institute of Material Research,Fraunhoferstr.6,07743 Jena,Germany [4]Abbe School of Photonics and Physics Faculty,Friedrich Schiller University,07743 Jena,Germany

出　　处：《Light(Advanced Manufacturing)》2021年第3期76-87,共12页光（先进制造）（英文）

基　　金：support of the German Science Foundation via the Projects SCHM2655/9-1,SCHM2655/11-1,and SCHM2655/12-1;This work was performed in part at the Optofab node of the Australian National Fabrication Facility(ANFF)utilising Commonwealth and South Australian State Government Funding.T.L.acknowledges support from the German Science Foundation DFG,IRTG 2101.H.E.and E.S.acknowledge support from the ARC Centre of Excellence for Nanoscale Biophotonics(CE140100003).

摘　　要：Nonlinear frequency conversion is a pathway to unlock undiscovered physics and implement tailored light sources for spectroscopy or medicine.A key challenge is the establishment of spectrally flat outputs,which is particularly demanding in the context of soliton-based light conversion at low pump energy.Here,we introduce the concept of controlling nonlinear frequency conversion by longitudinally varying resonances,allowing the shaping of soliton dynamics and achieving broadband spectra with substantial spectral flatness.Longitudinally varying resonances are realised by nanofilms with gradually changing thicknesses located on the core of an advanced microstructured fibre.Nanofilms with engineered thickness profiles are fabricated by tilted deposition,representing a waveguidecompatible approach to nano-fabrication,and inducing well-controlled resonances into the system,allowing unique dispersion control along the fibre length.Key features and dependencies are examined experimentally,showing improved bandwidth and spectral flatness via multiple dispersive wave generation and dispersionassisted soliton Raman shifts while maintaining excellent pulse-to-pulse stability and coherence in simulations,suggesting the relevance of our findings for basic science as well as tailored light sources.

关 键 词：waveguide PUMP SOLITON 

分 类 号：TN2[电子电信—物理电子学]