Numerical analysis of a side-hole birefringent photonic crystal fiber with high-pressure sensitivity

“…For example, the MHOF can be designed to be single-mode over the entire wavelength range of interest in optical communications, provide small and nearly constant dispersion over a wide wavelength range, or be a highly nonlinear optical fibre [9,11]. This novel fibre offers the potential for a variety of applications such as high-power lightguide with low loss, supercontinuum generation, grating-incorporated tunable filter, pressure sensor, and polarization maintaining fibre [15][16][17][18].…”

Design and Electromagnetic Analysis of Microstructured Holey Optical Fibres with Stepwise Random-Air-Hole Distributions in Concentric Cladding Layers

“…For example, the MHOF can be designed to be single-mode over the entire wavelength range of interest in optical communications, provide small and nearly constant dispersion over a wide wavelength range, or be a highly nonlinear optical fibre [9,11]. This novel fibre offers the potential for a variety of applications such as high-power lightguide with low loss, supercontinuum generation, grating-incorporated tunable filter, pressure sensor, and polarization maintaining fibre [15][16][17][18].…”

Design and Electromagnetic Analysis of Microstructured Holey Optical Fibres with Stepwise Random-Air-Hole Distributions in Concentric Cladding Layers

“…Nowadays, side-hole fiber has been widely used to pressure sensing [1][2][3][4][5][6] because of its unique property such as high pressure sensitivity, low temperature sensitivity, and good temperature compensation capability [7]. However, there is no analysis about the optimized structure of the side-hole fibers.…”

ANSYS-based birefringence property analysis of side-hole fiber induced by pressure and temperature

Proposal of hydrostatic pressure sensor integrated in a dual-core hollow optical fiber