Dispersion management in soft glass all-solid photonic crystal fibres

Buczyński, Ryszard; Pniewski, Jacek; Pysz, Dariusz; Stępień, Ryszard; Kasztelanic, Rafał; Kujawa, Ireneusz; Filipkowski, Adam; Waddie, Andrew J.; Taghizadeh, M. R.

doi:10.2478/s11772-012-0033-y

Cited by 19 publications

(6 citation statements)

References 29 publications

(32 reference statements)

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“…Dispersion in such all-solid photonic crystal fibers can be shaped by matching the composition of glasses, not only by manipulation of the geometrical parameters of the microstructure. We demonstrated that such photonic structures can realize broadband normal dispersion, flattened in the 1200-3000 nm range [12]. In this work we demonstrate fiber of an all-solid glass photonic structure, in which the SC spectrum generated with 120 fs pump pulses at 1360 nm covered an octave bandwidth from 900 to 1900 nm.…”

Section: Introductionmentioning

confidence: 85%

Broadband supercontinuum generation in normal dispersion all-solid photonic crystal fiber pumped near 1300 nm

Stępniewski¹,

Klimczak²,

Bookey³

et al. 2014

Laser Phys. Lett.

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We report on octave-spanning supercontinuum generation under pumping with 1360 nm, 120 fs pulses, in an all-solid, all-normal dispersion photonic crystal fiber. The fiber was drawn from thermally matched oxide soft glasses with a hexagonal lattice 35 µm in diameter, 2.5 µm solid core and pitch of Λ/d = 0.9. The fiber was designed for normal dispersion broadly flattened in the 1200–2800 nm range. Experimentally recorded supercontinuum spectrum covered a 900–1900 nm bandwidth and was reconstructed with good agreement using numerical modeling. To the best of our knowledge, this is the first report of an experimentally demonstrated octave-spanning supercontinuum bandwidth, reaching as far as 1900 nm in the all-normal dispersion regime.

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Section: Introductionmentioning

confidence: 85%

Broadband supercontinuum generation in normal dispersion all-solid photonic crystal fiber pumped near 1300 nm

Stępniewski¹,

Klimczak²,

Bookey³

et al. 2014

Laser Phys. Lett.

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“…It is especially important to assure similar values of the thermal expansion coefficients and the characteristic temperatures. Such structures, designed specifically with coherent SC generation in mind, were first demonstrated by Buczyński and co-workers [48]. They had their core and lattice made of the commercially available F2 glass (Schott O, 3.63.…”

Section: Glass and Fiber Designmentioning

confidence: 99%

Coherent supercontinuum generation in soft glass photonic crystal fibers

et al. 2017

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An overview of the progress on pulse-preserving, coherent, nonlinear fiber-based supercontinuum generation is presented. The context encompasses various wavelength ranges and pump sources, starting with silica photonic crystal fibers pumped with 1.0 μm femtosecond lasers up to chalcogenide step-index and microstructured fibers pumped from optical parametric amplifiers tuned to mid-infrared wavelengths. In particular, silica and silicatebased all-normal dispersion (ANDi) photonic crystal fibers have been demonstrated for pumping with femtosecond lasers operating at 1.56 μm with the recorded spectra covering 0.9-2.3 μm. This matches amplification bands of robust fiber amplifiers and femtosecond lasers. The review therefore focuses specifically on this wavelength range, discussing glass and nonlinear fiber designs, experimental results on supercontinuum generation up to the fundamental limit of oxide glass fiber transmission around 2.8 μm, and various limitations of supercontinuum bandwidth and coherence. Specifically, the role of nonlinear response against the role of dispersion profile shape is analyzed for two different soft glass ANDi fibers pumped at more than 2.0 μm. A spatio-temporal interaction of the fundamental fiber mode with modes propagating in the photonic lattice of the discussed ANDi fibers is shown to have positive effects on the coherence of the supercontinuum at pump pulse durations of 400 fs. Finally, the design and development of graded-index, nanostructured core optical fibers are discussed. In such structures the arbitrary shaping of the core refractive index profile could significantly improve the engineering flexibility of dispersion and effective mode area characteristics, and would be an interesting platform to further study the intermodal interaction mechanisms and their impact on supercontinuum coherence for subpicosecond laser pumped setups.

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“…Interest in photonic crystal fibers (PCFs) has lasted for more than two decades since their invention in 1996 [1]. The possibility of dispersion characteristics’ modification by a proper design of the geometrical structure as well as high optical power density in the fiber core led to applications in nonlinear optics [2,3]. Pumping PCFs with high-energy pulses in the anomalous regime of dispersion results in soliton fission that broaden the spectrum of a pulse, due to specific nonlinear phenomena, leading to supercontinuum generation (SG) which can theoretically span several octaves in the frequency domain.…”

Section: Introductionmentioning

confidence: 99%

Development of Dispersion-Optimized Photonic Crystal Fibers Based on Heavy Metal Oxide Glasses for Broadband Infrared Supercontinuum Generation with Fiber Lasers

Stępniewski

Pniewski

Pysz

et al. 2018

Sensors

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In this work a photonic crystal fiber made of a heavy metal oxide glass with optimized dispersion profile is proposed for supercontinuum generation in a broad range of wavelengths in the near-infrared, when pumped by a mode-locked fiber-based laser. The fiber is modelled and optimal geometrical parameters are selected to achieve flat and low dispersion in the anomalous regime. Supercontinuum generation in the range of 0.76–2.40 µm, within the dynamics of 30 dB, when pumped at 1.56 µm with 400 fs–long pulses and an average power 660 mW is possible. The applicability of such fibers is also discussed.

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Dispersion management in soft glass all-solid photonic crystal fibres

Cited by 19 publications

References 29 publications

Broadband supercontinuum generation in normal dispersion all-solid photonic crystal fiber pumped near 1300 nm

Broadband supercontinuum generation in normal dispersion all-solid photonic crystal fiber pumped near 1300 nm

Coherent supercontinuum generation in soft glass photonic crystal fibers

Development of Dispersion-Optimized Photonic Crystal Fibers Based on Heavy Metal Oxide Glasses for Broadband Infrared Supercontinuum Generation with Fiber Lasers

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