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Results: 1-9 |
Results: 9
Effect of strain on temperature measurements using the fluorescence intensity ratio technique (with Nd3+- and Yb3+-doped silica fibers)
Authors: Wade, SA Collins, SF Baxter, GW Monnom, G
Citation: Sa. Wade et al., Effect of strain on temperature measurements using the fluorescence intensity ratio technique (with Nd3+- and Yb3+-doped silica fibers), REV SCI INS, 72(8), 2001, pp. 3180-3185
Simultaneous strain-temperature measurement using fluorescence from Yb-doped silica fiber
Authors: Wade, SA Baxter, GW Collins, SF Grattan, KTV Sun, T
Citation: Sa. Wade et al., Simultaneous strain-temperature measurement using fluorescence from Yb-doped silica fiber, REV SCI INS, 71(6), 2000, pp. 2267-2269
Analysis of dopant concentration effects in praseodymium-based fluorescentfiber optic temperature sensors
Authors: Mitchell, IR Farrell, PM Baxter, GW Collins, SF Grattan, KTV Sun, T
Citation: Ir. Mitchell et al., Analysis of dopant concentration effects in praseodymium-based fluorescentfiber optic temperature sensors, REV SCI INS, 71(1), 2000, pp. 100-103
Dependence of the fluorescence lifetime on dopant concentration and temperature in praseodymium-doped fluoride glass
Authors: Nguyen, TB Trpkovski, S Farrell, PM Baxter, GW Collins, SF
Citation: Tb. Nguyen et al., Dependence of the fluorescence lifetime on dopant concentration and temperature in praseodymium-doped fluoride glass, OPT COMMUN, 186(4-6), 2000, pp. 277-281
Strain-independent temperature measurement by use of a fluorescence intensity ratio technique in optical fiber
Authors: Wade, SA Collins, SF Grattan, KTV Baxter, GW
Citation: Sa. Wade et al., Strain-independent temperature measurement by use of a fluorescence intensity ratio technique in optical fiber, APPL OPTICS, 39(18), 2000, pp. 3050-3052
Multiplexed intrinsic optical fibre Fabry-Perot temperature and strain sensors addressed using white-light interferometry
Authors: Kaddu, SC Collins, SF Booth, DJ
Citation: Sc. Kaddu et al., Multiplexed intrinsic optical fibre Fabry-Perot temperature and strain sensors addressed using white-light interferometry, MEAS SCI T, 10(5), 1999, pp. 416-420
Optical amplification on the P-3(0)-> F-3(2) transition in praseodymium-doped fluorozirconate fiber
Authors: Petreski, BP Farrell, PM Collins, SF
Citation: Bp. Petreski et al., Optical amplification on the P-3(0)-> F-3(2) transition in praseodymium-doped fluorozirconate fiber, FIBER IN OP, 18(1), 1999, pp. 21-32
Nd3+-doped optical fiber temperature sensor using the fluorescence intensity ratio technique
Authors: Wade, SA Muscat, JC Collins, SF Baxter, GW
Citation: Sa. Wade et al., Nd3+-doped optical fiber temperature sensor using the fluorescence intensity ratio technique, REV SCI INS, 70(11), 1999, pp. 4279-4282
Comparison of fluorescence-based temperature sensor schemes: Theoretical analysis and experimental validation
Authors: Collins, SF Baxter, GW Wade, SA Sun, T Grattan, KTV Zhang, ZY Palmer, AW
Citation: Sf. Collins et al., Comparison of fluorescence-based temperature sensor schemes: Theoretical analysis and experimental validation, J APPL PHYS, 84(9), 1998, pp. 4649-4654
Risultati: 1-9 |