Comparison of photo detectors and operating conditions for decay time determination in phosphor thermometry

Knappe, Christoph; Nada, Fahd Jouda Abou; Richter, Mattias; Aldén, Marcus

doi:10.1063/1.4746990

Cited by 13 publications

(7 citation statements)

References 18 publications

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“…This Raman scattering (along with any prompt fluorescence) does not persist beyond the short laser excitation pulse (typically about 10 ns duration) and therefore precedes most of the phosphor sensor decay curve. However, this high signal intensity spike distorts the ensuing decay as either one or both of the detector (such as a photomultiplier tube) and electronic measurement instrument (such as an oscilloscope) recover from the spike [26][27][28]. With no filtering in a single fiber probe configuration to remove the background light intensity generated in the laser delivery fiber and probe, the initial spike can significantly distort the measured phosphor emission decay for several microseconds.…”

Section: Measurement Science and Technologymentioning

confidence: 99%

Single fiber temperature probe configuration using anti-Stokes luminescence from Cr:GdAlO₃

Eldridge

2018

Meas. Sci. Technol.

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Single-photon excitation of anti-Stokes-shifted emission from a thermographic phosphor allows operation of a luminescence decay-based single fiber temperature probe with negligible interference from background fiber-generated Raman scattering. While single fiber probe configurations for luminescence-based fiber optic thermometers offer advantages of simple design, compactness, and superior emission light collection efficiency, their effective use has been limited by interference from Raman scattering in the fiber probe and excitation delivery fiber that produces distortion of the luminescence decay that follows the excitation pulse. The near elimination of interference by background fiber-generated Raman scattering was demonstrated by incorporating a Cr-doped GdAlO 3 (Cr:GdAlO 3 ) thermographic phosphor as the sensing element at the end of a single fiber luminescence decay-based thermometer and detecting anti-Stokes-shifted luminescence centered at 542 or 593 nm produced by 695 nm excitation. Measurements were performed using both silica (up to 1150 °C) and single-crystal YAG (up to 1200 °C) fiber-based thermometers. Selection of emission detection centered at 542 nm greatly benefited the YAG fiber probe measurements by practically eliminating detection of otherwise significant luminescence from Cr 3+ impurities in the YAG fiber. For both the silica and YAG fiber probes, the relative benefit of adopting single-photon excitation of anti-Stokes-shifted luminescence was evaluated by comparison with results obtained by conventional 532 nm excitation of Stokes-shifted luminescence.

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Section: Measurement Science and Technologymentioning

confidence: 99%

Single fiber temperature probe configuration using anti-Stokes luminescence from Cr:GdAlO₃

Eldridge

2018

Meas. Sci. Technol.

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“…A Hamamatsu H11526-20-NF photomultiplier tube was used as the detector. According to recent investigations by the authors, this PMT type showed superior signal linearity compared to other detector types [13]. A control voltage of 0.339 V set the photomultiplier gain constant throughout the entire experiment.…”

Section: Methodsmentioning

confidence: 99%

“…A well-constructed calibration curve is important for an accurate thermographic phosphor temperature determination. The process of obtaining a phosphor calibration curve can be tedious and accompanied with effects such as detector nonlinearity [13,14]. Despite the importance of the calibration, no major development has occurred or been reported for the method by which the temperature calibration is achieved.…”

Section: Introductionmentioning

confidence: 99%

Development of an automatic routine for calibration of thermographic phosphors

Nada

Knappe

et al. 2014

Meas. Sci. Technol.

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An automated routine for the continuous calibration of thermographic phosphors was developed as a replacement for the conventional calibration scheme that relied on fixed temperature points. The automated calibration routine was validated using Mg 3 F 2 GeO 4 :Mn as a calibration phosphor. Hardware and software aspects of the calibration process were addressed in this development. The hardware aspect included a new substrate design using a high performance alloy, the Hastelloy-C alloy, whereas the software aspect included an automated acquisition system which was capable of acquiring simultaneous thermocouple temperatures and phosphor decay waveform in real time. The design of the calibration process eliminates the need for a system in thermal equilibrium during a phosphor calibration measurement. Temperature ramping rates of up to 4 K min −1 were employed in the oven without a delay in the temperature response being measured between the phosphor and the thermocouples involved. In addition, the automated calibration setup allowed for detailed investigations on the effect of heat being delivered to the phosphor coating by the laser. These findings were confirmed by a simple heat transfer model, based on lumped system analysis. In comparison to the data acquisition performed at several fixed points with the conventional calibration scheme, the experiment duration was shortened by a factor of 4 with the overall accuracy improved by 1-2 K.

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“…Severe signal distortions can occur to the measured signal if the detector is operating in its nonlinear region. The importance of detector linearity in phosphor thermometry was characterized and reported by Knappe et al [25,26]. The studies showed that photodetectors can severely distort the shape of the exponentially decaying signals.…”

Section: Detector Linearitymentioning

confidence: 99%

“…By testing an array of different photodetectors, the authors have identified a detector that provides superior linearity response among the tested photodetectors [26]. This detector is the Hamamatsu H11526-20-NF.…”

Section: Detector Linearitymentioning

confidence: 99%

A First Application of Thermographic Phosphors in a Marine Two-Stroke Diesel Engine for Surface Temperature Measurement

Nada

Hult²,

Knappe

et al. 2014

Volume 1: Large Bore Engines; Fuels; Advanced Combustion; Emissions Control Systems

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Phosphor thermometry is applied for the first time in a large-bore two-stroke diesel engine. The work proves the practicality of phosphor thermometry in large-bore engines. The experiments were conducted on the MAN 4T50ME-X marine research engine equipped with an optical cylinder head. By employing a thin surface coating of CdWO 4 phosphor, cycle resolved temperature measurements of the cylinder wall were obtained. Motored and fired engine operations were tested at engine loads covering the low and medium engine load range. Phosphor thermometry proved to be successful in retrieving the temperature with standard deviations ranging around 1-8 K. Experimental considerations like detector linearity, coating thickness and an automated phosphor calibration routine will be addressed.

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Comparison of photo detectors and operating conditions for decay time determination in phosphor thermometry

Cited by 13 publications

References 18 publications

Single fiber temperature probe configuration using anti-Stokes luminescence from Cr:GdAlO₃

Single fiber temperature probe configuration using anti-Stokes luminescence from Cr:GdAlO₃

Development of an automatic routine for calibration of thermographic phosphors

A First Application of Thermographic Phosphors in a Marine Two-Stroke Diesel Engine for Surface Temperature Measurement

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Comparison of photo detectors and operating conditions for decay time determination in phosphor thermometry

Cited by 13 publications

References 18 publications

Single fiber temperature probe configuration using anti-Stokes luminescence from Cr:GdAlO3

Single fiber temperature probe configuration using anti-Stokes luminescence from Cr:GdAlO3

Development of an automatic routine for calibration of thermographic phosphors

A First Application of Thermographic Phosphors in a Marine Two-Stroke Diesel Engine for Surface Temperature Measurement

Contact Info

Product

Resources

About

Single fiber temperature probe configuration using anti-Stokes luminescence from Cr:GdAlO₃

Single fiber temperature probe configuration using anti-Stokes luminescence from Cr:GdAlO₃