Tunable dual-comb from an all-polarization-maintaining single-cavity dual-color Yb:fiber laser

Jakob Fellinger (Corresponding author), Aline Mayer, Georg Winkler, Wilfrid Grosinger, Gar-Wing Truong, Stefan Droste, Chen Li, Christoph M. Heyl, Ingmar Hartl, Oliver H. Heckl (Corresponding author)

Publications: Contribution to journalArticlePeer Reviewed

Abstract

We demonstrate dual-comb generation from an all-polarization-maintaining dual-color ytterbium (Yb) fiber laser. Two pulse trains with center wavelengths at 1030 nm and 1060 nm respectively are generated within the same laser cavity with a repetition rate around 77 MHz. Dual-color operation is induced using a tunable mechanical spectral filter, which cuts the gain spectrum into two spectral regions that can be independently mode-locked. Spectral overlap of the two pulse trains is achieved outside the laser cavity by amplifying the 1030-nm pulses and broadening them in a nonlinear fiber. Spatially overlapping the two arms on a simple photodiode then generates a down-converted radio frequency comb. The difference in repetition rates between the two pulse trains and hence the line spacing of the down-converted comb can easily be tuned in this setup. This feature allows for a flexible adjustment of the tradeoff between non-aliasing bandwidth vs. measurement time in spectroscopy applications. Furthermore, we show that by fine-tuning the center-wavelengths of the two pulse trains, we are able to shift the down-converted frequency comb along the radio-frequency axis. The usability of this dual-comb setup is demonstrated by measuring the transmission of two different etalons while the laser is completely free-running.
Original languageEnglish
Pages (from-to)28062-28074
Number of pages13
JournalOptics Express
Volume27
Issue number20
DOIs
Publication statusPublished - 19 Sept 2019

Austrian Fields of Science 2012

  • 103016 Laser physics
  • 103021 Optics
  • 103008 Experimental physics

Keywords

  • Dual-Comb
  • Spektroskopie
  • Mode-locked Laser
  • Dual-color-Laser
  • LOCKED FIBER LASER
  • SPECTROSCOPY
  • OPERATION
  • TI
  • DISPERSION

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