Abstract
A new triangular photonic crystal fiber with a based microstructure core gas sensor has been proposed for the wavelength range from 1.1μm to 1.7μm. The guiding trait of the proposed structure depends on geometric parameters and wavelength, which are numerically studied by the finite element method. According to the results, the relative sensitivity obtained as high as 75.14% at 1.33μm wavelength. high birefringence and effective area are also obtained by order of 3.75×10-3 and 14.07 μm2 finally, low confinement loss of 1.41×10-2 dB/m is acquired at the same wavelength. The variation of the diameters in the cladding and core region is investigated and the results show that this structure has good stability for manufacturing goals. Since the results show the highest sensitivity at wavelengths around 1.2μm to 1.7μm, which is the absorption line of many gases such as methane (CH4), hydrogen fluoride (HF), ammonia (NH3), this gas sensor can be used for medical and industrial applications.
Highlights
Photonic crystal fibers (PCFs) have opened a new era in communication and sensing applications
The variation of the diameters in the cladding and core region is investigated, and the results show that this structure has good stability for manufacturing goals
Since the results show the highest sensitivity at wavelengths around 1.2μm to 1.7μm, which is the absorption line of many gases such as methane (CH4), hydrogen fluoride (HF), ammonia (NH3), this gas sensor can be used for medical and industrial applications
Summary
Photonic crystal fibers (PCFs) have opened a new era in communication and sensing applications. They showed that increasing the diameter of air holes in the microstructure core enhances the relative sensitivity [16]. A new triangular PCF with high sensitivity and low confinement loss has been proposed.
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