2010
DOI: 10.1364/oe.18.023358
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Optical referencing technique with CW lasers as intermediate oscillators for continuous full delay range frequency comb interferometry

Abstract: This paper presents a significant advancement in the referencing technique applied to frequency comb spectrometry (cFTS) that we proposed and demonstrated recently. Based on intermediate laser oscillators, it becomes possible to access the full delay range set by the repetition rate of the frequency combs, overcoming the principal limitation observed in the method based on passive optical filters. With this new referencing technique, the maximum spectral resolution given by each comb tooth is achievable and co… Show more

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Cited by 129 publications
(73 citation statements)
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“…To our knowledge, our work demonstrates the narrowest spectral features ever measured with direct optical frequency comb spectroscopy, other than the comb lines themselves, which were measured using dual-comb spectroscopy [15]. It also proves that the resolution of a mechanical comb-based FTS is given by the comb linewidth, and not by the maximum optical path difference, provided that the nominal resolution of the FTS is matched to the repetition rate of the comb.…”
supporting
confidence: 57%
“…To our knowledge, our work demonstrates the narrowest spectral features ever measured with direct optical frequency comb spectroscopy, other than the comb lines themselves, which were measured using dual-comb spectroscopy [15]. It also proves that the resolution of a mechanical comb-based FTS is given by the comb linewidth, and not by the maximum optical path difference, provided that the nominal resolution of the FTS is matched to the repetition rate of the comb.…”
supporting
confidence: 57%
“…Three common examples are illustrated in Fig. 2: (1) the offset frequency, fceo, and the comb tooth spacing given by the repetition rate, frep, which stabilizes the comb to an rf reference [1,2], (2) the offset frequency, fceo, and the frequency of a single optical comb tooth, f n0 , that stabilize the comb to an optical reference [6] or (3) the frequency of two widely spaced optical comb teeth, f n0 and f n1 [79][80][81], that effectively stabilize the comb to their frequency difference. Any noise is then canceled either through active feedback to the oscillator or through signal processing [32,38,82,83].…”
Section: Principles Of Optical Frequency Combsmentioning
confidence: 99%
“…A nice example of this approach occurs in microwave generation where frep is isolated and stabilized by detecting and signal processing fceo and fn [150,164]. Variations have been applied to both dual-comb spectroscopy [80,165,166] and in low noise optical frequency transfer [38].…”
Section: Stabilization By Processingmentioning
confidence: 99%
“…In dual-comb spectroscopy [10][11][12][13][14] , a frequency comb is transmitted through an absorption cell. The beam of a second comb generator with slightly different line spacing is superimposed to the transmitted comb beam and they are heterodyned on a fast photodetector, yielding a down-converted radio-frequency comb containing information on the absorption experienced by the lines of the interrogating comb.…”
Section: Linear Absorption Dual-comb Spectroscopymentioning
confidence: 99%