Low peak power broadband supercontinuum spectra generated in a square lattice toluene-core photonic crystal fiber with different air hole diameters
Tác giả: Lanh Chu Van and Bao Tran Le Tran
Laser Physics
Quyển: 33 Trang: 095102
Năm xuất bản: 6/2023
Tóm tắt
This study shows that it is possible to achieve a very large supercontinuum spectral broadening
with a peak power hundreds of times lower than in previous publications. We can achieve by
using a square lattice toluene-core photonic crystal fiber. With the heterogeneity in the diameter
of air holes, our new design allows simultaneous optimization of characteristic quantities to
ensure flat near-zero dispersion, small effective mode area, and low attenuation for efficient
spectral broadening. Supercontinuum generation (SC) of proposed PCFs has been numerically
simulated and studied under different pump source parameters. The first fiber with a lattice
constant of 1.0 μm and filling factor of 0.65 operates in all-normal dispersion. It generates
broadband of 1.045 μm by a pump pulse with a central wavelength of 1.3 μm, 40 fs duration,
and energy of 18 pJ (corresponding peak power of 0.45 kW). Besides, two octave-spanning of
the SC spectrum in the wavelength range of 0.775–4.3 μm are formed in the second fiber with
an input pulse whose optical properties are 1.55 μm wavelength, 100 fs duration, and energy of
55 pJ (0.45 kW of the peak power). The lattice constant of second fiber is 2.0 μm and the filling
factor is 0.3. They would be good candidates for all-fiber SC sources operating with low-power
pump lasers. This would be a as cost-effective alternatives to glass core fibers.
