2 / 2017-09-25 18:22:30
Chemical Sensor Based on Micro Structured Porous Core Photonic Crystal Fiber with High Sensitivity
Keywords—Confinement loss; chemical sensor; finite element method; PCF; relative sensitivity
Draft Pending
Ranju Sardar / BOU
Abstract—In this paper, a porous core photonic crystal fiber (PC-PCF) based sensor has been proposed for alcohol sensing. In this design of PC-PCF, the cladding is octagonal and the core is hexagonal pattern with circular air holes. For investigating the different characteristics of the PC-PCF such as confinement loss, relative sensitivity and porosity, finite element method (FEM) has been utilized. In this design various geometric parameters like air hole, pitch value of the cladding region and porous area of the core are gradually varied to optimize the PC-PCF. This PC-PCF offers the optimum relative sensitivity of 63% and confinement loss of 0.21 dB/m for 77% porosity at 1.33 µm absorption wavelength of ethanol. This PC-PCF could be useful for detecting the alcohol such as ethanol (ethyl alcohol).


Important Date
  • Conference Date

    Dec 26

    2017

    to

    Dec 28

    2017

  • Aug 31 2017

    Draft paper submission deadline

  • Oct 30 2017

    Draft Paper Acceptance Notification

  • Nov 15 2017

    Final Paper Deadline

  • Dec 28 2017

    Registration deadline

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IEEE
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