论文信息 - Potential for temperature sensor applications of highly neodymium-doped crystals and fiber at up to approximately 1000 °C

Potential for temperature sensor applications of highly neodymium-doped crystals and fiber at up to approximately 1000 °C

This work reports on the thermographic characteristics and their potential for use, in fiber optic temperature sensors, of a range of neodymium-doped materials. Their comparative value for low-cost, simple sensors is discussed, using both crystalline materials in the bulk form and a specimen of highly doped, multimode neodymium fiber. The effects of annealing of the bulk materials are discussed in light of their suitability for such sensor applications.

Kenneth T. V. Grattan | Zhiyi Zhang | B. T. Meggitt | Andrew W. Palmer

[1] P. L. Scrivener,et al. Fabrication and properties of large core, high NA, high Nd3+ content multimode optical fibres for temperature sensor applications , 1990 .

[2] Kenneth T. V. Grattan,et al. Fiber optic temperature sensor based on the cross referencing between blackbody radiation and fluorescence lifetime , 1992 .

[3] V. Kushawaha,et al. Relative performance of a 1.06 μm laser with various Nd doped crystals , 1994 .

[4] Kenneth T. V. Grattan,et al. A miniaturised microcomputer-based neodymium 'decay-time' temperature sensor , 1987 .

[5] James F. Schooley,et al. Temperature : its measurement and control in science and industry , 1992 .

[6] Kenneth T. V. Grattan,et al. Fiber Optic Fluorescence Thermometry , 1994 .

[7] Zhiyi Zhang,et al. Development of a high‐temperature fiber‐optic thermometer probe using fluorescent decay , 1991 .

[8] M. Birnbaum,et al. Lifetimes of the 4F3/2 state in Nd : YVO4 , 1979 .

[9] Kenneth T. V. Grattan,et al. Lifetime investigation of fluorescence from neodymium: Yttrium aluminium garnet at elevated temperatures , 1987 .