A Theoretical Study of the Temperature Sensor Based on the LP01-LP02 Intermodal Interference in Optical Fiber with a Liquid Core Cover Image

A Theoretical Study of the Temperature Sensor Based on the LP01-LP02 Intermodal Interference in Optical Fiber with a Liquid Core
A Theoretical Study of the Temperature Sensor Based on the LP01-LP02 Intermodal Interference in Optical Fiber with a Liquid Core

Author(s): Ivan Martincek, Dusan Pudis
Subject(s): Methodology and research technology
Published by: Žilinská univerzita v Žilině
Keywords: Temperature Sensor; LP01-LP02; Intermodal Interference; Optical Fiber with a Liquid Core;

Summary/Abstract: We theoretically propose the temperature sensor based on optical fiber consisting of fused silica and core of 2.5 μm radius filled in with toluene. In such an optical fiber the intermodal interference of modes LP01-LP02 shows a characteristic dependence of the equalization wavelength λ0 on temperature. The optical fiber sensor was theoretically investigated in the temperature range of 0-40 °C, where the equalization wavelength λ0 for modes LP01-LP02 changes from 1284.2 nm to 844.1 nm. Such considerable wavelength change with temperature favors this sensor for temperature measurements with sensitivity better than 0.1 °C.

  • Issue Year: 12/2010
  • Issue No: 2
  • Page Range: 10-13
  • Page Count: 4
  • Language: English
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