Efficient femtosecond mid-infrared generation based on a Cr:ZnS oscillator and step-index fluoride fibers

Nathalie Nagl; Ka Fai Mak; Qing Wang; Vladimir Pervak; Ferenc Krausz; Oleg Pronin

doi:10.1364/OL.44.002390

Efficient femtosecond mid-infrared generation based on a Cr:ZnS oscillator and step-index fluoride fibers

Nathalie Nagl, Ka Fai Mak^*, Qing Wang, Vladimir Pervak, Ferenc Krausz, Oleg Pronin

^*Corresponding author for this work

School of Optics and Photonics

Research output: Contribution to journal › Article › peer-review

35 Citations (Scopus)

Abstract

Femtosecond light sources in the 3–5 μm region are highly sought after for numerous applications. While they can be generated by using nonlinear effects in optical fibers, the efficiencies and effectiveness of frequency conversion can be significantly enhanced by using ultrashort driving pulses. Here, we report on a few-cycle Cr:ZnS oscillator driving low-order soliton dynamics in soft-glass fibers. By selecting appropriate parameters, sub-two-cycle pulses or broad super-continua spanning over 1.7 octaves from 1.6 to 5.1 μm can be generated at average power levels exceeding 300 mW. In the same setting, Raman-induced soliton self-frequency shifting has been exploited to generate sub-100-fs pulses continuously tunable from 2.3 to 3.85 μm with a conversion efficiency of ∼50%. These results demonstrate the vast potential of using Cr:ZnS or Cr:ZnSe lasers for powerful mid-infrared generation.

Original language	English
Pages (from-to)	2390-2393
Number of pages	4
Journal	Optics Letters
Volume	44
Issue number	10
DOIs	https://doi.org/10.1364/OL.44.002390
Publication status	Published - 15 May 2019

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abstract = "Femtosecond light sources in the 3–5 μm region are highly sought after for numerous applications. While they can be generated by using nonlinear effects in optical fibers, the efficiencies and effectiveness of frequency conversion can be significantly enhanced by using ultrashort driving pulses. Here, we report on a few-cycle Cr:ZnS oscillator driving low-order soliton dynamics in soft-glass fibers. By selecting appropriate parameters, sub-two-cycle pulses or broad super-continua spanning over 1.7 octaves from 1.6 to 5.1 μm can be generated at average power levels exceeding 300 mW. In the same setting, Raman-induced soliton self-frequency shifting has been exploited to generate sub-100-fs pulses continuously tunable from 2.3 to 3.85 μm with a conversion efficiency of ∼50%. These results demonstrate the vast potential of using Cr:ZnS or Cr:ZnSe lasers for powerful mid-infrared generation.",

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AU - Krausz, Ferenc

AU - Pronin, Oleg

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AB - Femtosecond light sources in the 3–5 μm region are highly sought after for numerous applications. While they can be generated by using nonlinear effects in optical fibers, the efficiencies and effectiveness of frequency conversion can be significantly enhanced by using ultrashort driving pulses. Here, we report on a few-cycle Cr:ZnS oscillator driving low-order soliton dynamics in soft-glass fibers. By selecting appropriate parameters, sub-two-cycle pulses or broad super-continua spanning over 1.7 octaves from 1.6 to 5.1 μm can be generated at average power levels exceeding 300 mW. In the same setting, Raman-induced soliton self-frequency shifting has been exploited to generate sub-100-fs pulses continuously tunable from 2.3 to 3.85 μm with a conversion efficiency of ∼50%. These results demonstrate the vast potential of using Cr:ZnS or Cr:ZnSe lasers for powerful mid-infrared generation.

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Efficient femtosecond mid-infrared generation based on a Cr:ZnS oscillator and step-index fluoride fibers

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