典型文献
High-quality 8-fold self-compression of ultrashort near-UV pulses in an Ar-filled ultrathin-walled photonic crystal fiber
文献摘要:
We demonstrate generation of 7.6 fs near-UV pulses centered at 400 nm via 8-fold soliton-effect self-compression in an Ar-filled hollow-core kagomé-style photonic crystal fiber with ultrathin core walls.Analytical calculations of the effective compression length and soliton order permit adjustment of the experimental parameters,and numerical modeling of the nonlinear pulse dynamics in the fiber accurately predicts the spectrotemporal profiles of the self-compressed pulses.After compensation of phase distortion introduced by the optical elements along the beam path from the fiber to the diagnostics,71%of the pulse energy was in the main temporal lobe,with peak powers in excess of 0.2 GW.The convenient setup opens up new opportunities for time-resolved studies in spec-troscopy,chemistry,and materials science.
文献关键词:
中图分类号:
作者姓名:
JIE LUAN;PHILIP ST.J.RUSSELL;DAVID NOVOA
作者机构:
Max Planck Institute for the Science of Light,91058 Erlangen,Germany;Department of Physics,Friedrich-Alexander-Universit?t,91058 Erlangen,Germany;Department of Communications Engineering,Engineering School of Bilbao,University of the Basque Country(UPV/EHU),48013 Bilbao,Spain;EHU Quantum Center,University of the Basque Country(UPV/EHU),48013 Bilbao,Spain;IKERBASQUE,Basque Foundation for Science,48009 Bilbao,Spain
文献出处:
引用格式:
[1]JIE LUAN;PHILIP ST.J.RUSSELL;DAVID NOVOA-.High-quality 8-fold self-compression of ultrashort near-UV pulses in an Ar-filled ultrathin-walled photonic crystal fiber)[J].光子学研究(英文),2022(10):2405-2409
A类:
kagom,spectrotemporal
B类:
High,quality,fold,self,compression,ultrashort,UV,pulses,Ar,filled,ultrathin,walled,photonic,crystal,fiber,We,demonstrate,generation,fs,centered,via,soliton,hollow,core,style,walls,Analytical,calculations,effective,length,order,permit,adjustment,experimental,parameters,numerical,modeling,nonlinear,dynamics,accurately,predicts,profiles,compressed,After,compensation,phase,distortion,introduced,by,optical,elements,along,beam,path,from,diagnostics,energy,was,main,lobe,peak,powers,excess,GW,convenient,setup,opens,new,opportunities,resolved,studies,troscopy,chemistry,materials,science
AB值:
0.613608
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