Sub-Bandwidth Limited Time-Domain Signal in Mid-Infrared Quantum Cascade Lasers
2023 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)(2023)
摘要
Quantum cascade lasers (QCLs) offer an attractive platform for mid-infrared frequency combs, due to their compact, on chip geometry, emitting powers as high as 1 W at room-temperature [1–3]. A defining feature is their quasi-continuous intensity output, which is predominantly frequency modulated. To force the QCL into amplitude-modulated operation, active modelocking has been used to achieve pulses on the picosecond-scale [4] and external compression has yielded pulses close to the Fourier Limit at 630 fs [5]. For shorter length scales beyond the Fourier-limit, superoscillations, which are caused by the interference of the different Fourier components, offer great potential for use in ultrafast spectroscopic techniques [6], [7].
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关键词
active modelocking,amplitude-modulated operation,attractive platform,chip geometry,defining feature,different Fourier components,external compression,Fourier Limit,Fourier-limit,mid-infrared frequency combs,mid-infrared quantum cascade lasers,offer great potential,picosecond-scale,power 1.0 W,predominantly frequency,QCLs,quasicontinuous intensity output,shorter length scales,sub-bandwidth limited time-domain signal,time 630.0 fs
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