In the direction of miniaturizing and expanding optical frequency comb (FC) operation in the infrared (IR), the most relevant results have recently been achieved with quantum cascade lasers (QCLs) [1-4]. By using broadband Fabry-Perot QCLs [5] designed to have a low group velocity dispersion, FC generation was demonstrated in fully free-running operation (QCL-combs) [6,7]. Various techniques to characterize the emission of mid- and far-infrared QCL-combs have been recently developed [6,8-12].

Retrieving the phase relation of a quantum cascade laser frequency comb and reconstructing its emission profile

Cappelli Francesco;Consolino Luigi;Campo Giulio;Galli Iacopo;Mazzotti Davide;Campa Annamaria;Eramo Roberto;De Natale Paolo;Bartalini Saverio
2019

Abstract

In the direction of miniaturizing and expanding optical frequency comb (FC) operation in the infrared (IR), the most relevant results have recently been achieved with quantum cascade lasers (QCLs) [1-4]. By using broadband Fabry-Perot QCLs [5] designed to have a low group velocity dispersion, FC generation was demonstrated in fully free-running operation (QCL-combs) [6,7]. Various techniques to characterize the emission of mid- and far-infrared QCL-combs have been recently developed [6,8-12].
2019
9781728104690
Four-wave mixingFrequency combInfraredPhase analysisPhase controlQuantum cascade laser
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/423589
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