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Broadband supercontinuum generation in a square lattice photonic crystal fiber with C6H6-core using low pump power
Tác giả: Bao Tran Le Tran and Lanh Chu Van
164    0
The European Physical Journal D
Quyển: 77     Trang: 90
Đường link/DOI: https://doi.org/10.1140/epjd/s10053-023-00673-x
Minh chứng: 1335_2023_broadband_scg_in_a_square_pcf.pdf
Năm xuất bản: 5/2023
Tóm tắt
We numerically investigate the near-zero flat dispersion supercontinuum generation (SCG) in hollow-core square photonic crystal fibers (PCFs) with benzene-core (C6H6). Different air hole sizes in the rings result in a structure that simultaneously optimizes fiber properties. A unique combination between low all-normal dispersion and high nonlinearity enables low-noise SC covering 0.72–1.76 μm. This requires 0.45 kW of peak power realized by ultrafast standard erbium-fiber laser with 40 fs pulse duration. PCF with an anomalous dispersion enables SCG to cover the spectral range of 0.8–3.95 μm at 1.55 μm when pumped by power pulses less than 0.55 kW. This is a much lower input power level than previously for SCG with bandwidths greater than one octave in liquid-core structures. Our results show that liquid-core fibers are a promising method to scale the SC spectrum with pump lasers with limited peak power per pulse. Such fibers are often used in frequency measurement, optical communication, and high-speed nonlinear imaging.
Cùng tác giả
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crystal fiber with hollow core filled NitrobenzeneANALYSIS EFFECTIVE MODE AREA OF SOLID-CORE PCFS WITH HEXAGONAL LATTICE INFILTRATED WITH METHANOL FOR OPTICAL FIBER TECHNOLOGYDISPERSIONS OF SOLID-CORE SILICA PCFS INFILTRATED WITH WATER AND ETHANOL FOR SUPERCONTINUUM GENERATIONExchange field effects on the electronic properties of heterostructured ferromagnetic/topological crystalline insulatorMeasuring the refractive index of a methanol -water mixture according to the wavelengthOutstanding elastic, electronic, transport and optical properties of a novel layered material C4F2Spectrum Broadening of Supercontinuum Generation by fill Styrene in core of Photonic Crystal FibersSupercontinuum generation in benzene-filled hollow-core fibersBroadband laser-driven creation of entangled state for a nonlinear coupling coupler pumped in one modeMulti-octave supercontinuum generation in As2Se3 chalcogenide photonic crystal fiberNovel Janus GaInX3 (X ¼ S, Se, Te) single-layers: first-principles prediction on structural, electronic,and transport propertiesComparison of supercontinuum spectrum generating by hollow core PCFs filled with nitrobenzene with different lattice typesModelling of lead-bismuth gallate glass ultra-flatted normal dispersion photonic crystal fiber infiltrated with tetrachloroethylene for high coherence mid-infrared supercontinuum generationOptimization of optical properties of toluene-core photonic crystal fibers with circle lattice for supercontinuum generationComparison of Chromatic Dispersion of Circular and Hexagonal Photonic Crystal Fibers with Chloroform-CoreComparison of supercontinuum generation spectral intensity in benzene‑core PCFs with different types of lattices in the claddingsSupercontinuum generation in highly birefringent fiber infiltrated with carbon disulfideSupercontinuum generation in chalcogenide photonic crystal fiber infiltrated with liquidBroadband supercontinuum generation in cascaded tapered liquid core fiberSupercontinuum generation in a square-lattice photonic crystal fiber using carbon disulfide infiltrationLow peak power broadband supercontinuum spectra generated in a square lattice toluene-core photonic crystal fiber with different air hole diametersBroadband supercontinuum generation with low peak power in a circular lattice nitrobenzene-core photonic crystal fiberDesign and optimization of C6H5NO2-core photonic crystal fibers of broadband supercontinuum generation with low peak powerSupercontinuum generation in C6H5NO2-core photonic crystal fibers with various air-hole sizeFlat-top and broadband supercontinuum generation in CCl4-filled circular photonic crystal fiberSupercontinuum generation in ultra‑flattened near‑zero dispersion PCF with C7H8 infiltrationComparison of supercontinuum spectral widths in CCl4-core PCF with square and circular lattices in the claddingsSupercontinuum spectra above 2700 nm in circular lattice photonic crystal fiber infiltrated chloroform with the low peak powerSupercontinuum spectra above 2700 nm in circular lattice photonic crystal fiber infiltrated chloroform with the low peak powerSupercontinuum generation based on suspended core fiber infiltrated with butanolBroadband supercontinuum generation in hollow-core photonic crystal ¯bers in¯ltrated with chloroform