Intrinsic doped fluorescence decay-time based measurements—strain and temperature characteristics for sensor purposes

1 December 1998

journal article
Published by AIP Publishing in Review of Scientific Instruments

Vol. 69 (12) , 4186-4190
https://doi.org/10.1063/1.1149241

Abstract

With current research in “smart” structures driving interest in the development of intrinsic (in-fiber) sensors for simultaneous strain and temperature monitoring, a new sensor approach is presented. In this, the fluorescence decay-time technique, which is familiar as a method of temperature monitoring with a range of materials is extended to investigate the strain sensitivity of an important temperature probe using Nd-doped fiber, in both single and multimode form. For these fibers, strain and temperature sensitivities are presented, “stress annealing” effects are investigated and the potential for compact, multiparameter intrinsic sensors using Nd-doped fiber is discussed.

Keywords

This publication has 10 references indexed in Scilit:

Thin-film thermocouples and strain-gauge technologies for engine applications
Published by Elsevier ,1998
Ultrahigh-sensitivity fiber-optic strain and temperature sensor
Optics Letters, 1998
Spectral characteristics and effects of heat treatment on intrinsic Nd-doped fiber thermometer probes
Review of Scientific Instruments, 1998
Effect of pressure and temperature on the lifetime of ${Cr}^{3 +}$ in yttrium aluminum garnet
Physical Review B, 1997
Fluorescence decay-time characteristics of erbium-doped optical fiber at elevated temperatures
Review of Scientific Instruments, 1997
Remote thermometry with thermographic phosphors: Instrumentation and applications
Review of Scientific Instruments, 1997
Potential for temperature sensor applications of highly neodymium-doped crystals and fiber at up to approximately 1000 °C
Review of Scientific Instruments, 1997
High-pressure laser spectroscopy of ${Cr}^{3 +}$ : ${Gd}_{3}$ ${Sc}_{2}$ ${Ga}_{3}$ $O_{12}$ and ${Cr}^{3 +}$ : ${Gd}_{3}$ ${Ga}_{5}$ $O_{12}$
Physical Review B, 1995
Phase-locked detection of fluorescence lifetime
Review of Scientific Instruments, 1993
Ruby at high pressure. II. Fluorescence lifetime of theRline to 130 GPa
Physical Review B, 1989