Fully phase-stabilized quantum cascade laser frequency comb
Luigi Consolino, Malik Nafa, Francesco Cappelli, Katia Garrasi,, Francesco P. Mezzapesa, Lianhe Li, A. Giles Davies, Edmund H. Linfield,, Miriam S. Vitiello, Paolo De Natale, Saverio Bartalini

TL;DR
This paper reports the development of a fully stabilized quantum cascade laser frequency comb that achieves precise control and measurement of its modes, enabling advanced applications in mid- and far-infrared quantum technologies.
Contribution
It introduces a novel technique for full stabilization and control of QCL-comb parameters against primary standards, achieving Hz-level mode narrowing and high-accuracy frequency measurement.
Findings
Hz-level narrowing of comb modes
Metrological-grade tuning of individual frequencies
Achieved frequency measurement accuracy of 2x10^-12
Abstract
Optical frequency comb synthesizers (FCs) [1] are laser sources covering a broad spectral range with a number of discrete, equally spaced and highly coherent frequency components, fully controlled through only two parameters: the frequency separation between adjacent modes and the carrier offset frequency. Providing a phase-coherent link between the optical and the microwave/radio-frequency regions [2], FCs have become groundbreaking tools for precision measurements[3,4]. Despite these inherent advantages, developing miniaturized comb sources across the whole infrared (IR), with an independent and simultaneous control of the two comb degrees of freedom at a metrological level, has not been possible, so far. Recently, promising results have been obtained with compact sources, namely diode-laser-pumped microresonators [5,6] and quantum cascade lasers (QCL-combs) [7,8]. While both these…
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