Coherent octave-spanning mid-infrared supercontinuum generated in As_2S_3-silica double-nanospike waveguide pumped by femtosecond Cr:ZnS laser

Xie, Shangran; Tolstik, Nikolai; Travers, John C.; Sorokin, Evgeni; Caillaud, Céline; Trolès, Johann; Russell, P. St. J.; Sorokina, Irina T.

doi:10.1364/oe.24.012406

Cited by 31 publications

(10 citation statements)

References 22 publications

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“…An advantage of fluoride fibers, such as fluorozirconate (ZBLAN) or fluoroindate (InF 3 ), is a low material zero dispersion wavelength (ZDW) of ∼1.6 μm, which is beneficial for anomalous dispersion pumping with commonly available laser sources [6][7][8][9]. However, fluoride glass possesses a low nonlinear refractive index that is comparable to that of fused silica, whereas chalcogenide fibers [10][11][12][13][14][15], such as As 2 S 3 or As 2 Se 3 , exhibit approximately 2 to 3 orders of magnitude higher nonlinear refractive indices. Furthermore, chalcogenide glasses have broad transmission windows up to 15 μm [16,17], exceeding that of fluorides and tellurite glasses, which are limited to ∼5 μm.…”

Section: Introductionmentioning

confidence: 99%

High repetition rate mid-infrared supercontinuum generation from 13 to 53 μm in robust step-index tellurite fibers

et al. 2017

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We demonstrate broadband supercontinuum generation over two infrared octaves, spanning from 1.3 to 5.3 μm, with an output power of 150 mW in robust step-index tellurite fibers with core diameters between 3.5 and 4.3 μm. As a pump source, we use femtosecond mid-IR pulses from a home-built post-amplified optical parametric oscillator tunable between 1.5 and 4.0 μm at a 43 MHz repetition rate. We study the influence of core size, pump wavelength, and fiber length to optimize the spectral bandwidth. A key requirement for efficient spectral broadening is a low and rather flat average anomalous dispersion over a wide spectral range that can be tailored accordingly by changing the fiber core diameter. Numerical simulations based on the generalized nonlinear Schrödinger equation are in good agreement with experimental results.

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Section: Introductionmentioning

confidence: 99%

High repetition rate mid-infrared supercontinuum generation from 13 to 53 μm in robust step-index tellurite fibers

et al. 2017

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“…Due to the presence of many molecular "finger-print" absorption features in this spectral region, a simultaneous coverage of this range will enable the parallel detection and identification of a vast number of chemicals [1,2]. This wavelength range can be covered by numerous different schemes, each with their own strengths and weaknesses in terms of complexity, simultaneous bandwidth, power, efficiency, and pulse durations [3][4][5][6][7][8]. Yet, the most popular method of coherent broadband MIR generation remains nonlinear downconversion from the nearinfrared-a spectral region where many high-power driving lasers are available [4,7,[9][10][11][12][13][14][15][16][17][18].…”

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confidence: 99%

Intra-pulse difference-frequency generation of mid-infrared (27–20 μm) by random quasi-phase-matching

et al. 2019

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We present a mid-infrared (MIR) source based on intrapulse difference-frequency generation under the random quasi-phase-matching condition. The scheme enables the use of non-birefringent materials whose crystal orientations are not perfectly and periodically poled, widening the choice of media for nonlinear frequency conversion. With a 2 μm driving source based on a Ho:YAG thin-disk laser, together with a polycrystalline ZnSe element, an octavespanning MIR continuum (2.7-20 μm) was generated. At over 20 mW, the average power is comparable to regular phase-matching in birefringent crystals. A 1 μm laser system based on a Yb:YAG thin-disk laser was also tested as a driving source in this scheme. The new approach provides a simplified way for generating coherent MIR radiation with an ultrabroad bandwidth at reasonable efficiency.

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“…Recently, the MIR SC generations in the ChGs have drawn lots of attentions [18][19][20][21][22][23]. The chalcogenide optical fibers have been extensively studied to generate the octave-spanning SCs in the MIR regions [24][25][26][27].…”

Section: Introductionmentioning

confidence: 99%

Multi-octave mid-infrared supercontinuum and frequency comb generation in a suspended As₂Se₃ ridge waveguide

Yuan

Mei

et al. 2019

Appl. Opt.

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In this paper, we numerically investigate the mid-infrared supercontinuum (SC) generation in a suspended As2Se3 ridge waveguide, which is designed with the two zero-dispersion wavelengths. Simulation results show that when the pump pulses at wavelength 3.3 µm with width of 100 fs and peak power of 900 W are launched into the anomalous dispersion region of the designed waveguide with a length of 0.87 mm, the SC can be generated in the wavelength range from 1.76 to 14.42 µm (more than 3 octaves), extending deep into the "fingerprint" region. The stability of the generated SC is confirmed by the first-order coherence. Moreover, we demonstrate the performance of the SC-based frequency comb by assuming a 50-pulses pump source at a repetition rate of 100 MHz.

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Coherent octave-spanning mid-infrared supercontinuum generated in As_2S_3-silica double-nanospike waveguide pumped by femtosecond Cr:ZnS laser

Cited by 31 publications

References 22 publications

High repetition rate mid-infrared supercontinuum generation from 13 to 53 μm in robust step-index tellurite fibers

High repetition rate mid-infrared supercontinuum generation from 13 to 53 μm in robust step-index tellurite fibers

Intra-pulse difference-frequency generation of mid-infrared (27–20 μm) by random quasi-phase-matching

Multi-octave mid-infrared supercontinuum and frequency comb generation in a suspended As₂Se₃ ridge waveguide

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Coherent octave-spanning mid-infrared supercontinuum generated in As_2S_3-silica double-nanospike waveguide pumped by femtosecond Cr:ZnS laser

Cited by 31 publications

References 22 publications

High repetition rate mid-infrared supercontinuum generation from 13 to 53 μm in robust step-index tellurite fibers

High repetition rate mid-infrared supercontinuum generation from 13 to 53 μm in robust step-index tellurite fibers

Intra-pulse difference-frequency generation of mid-infrared (27–20 μm) by random quasi-phase-matching

Multi-octave mid-infrared supercontinuum and frequency comb generation in a suspended As2Se3 ridge waveguide

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Multi-octave mid-infrared supercontinuum and frequency comb generation in a suspended As₂Se₃ ridge waveguide