Sub-°C-precision temperature imaging using phase-shift luminescence thermometry

发光 波形 材料科学 相(物质) 荧光粉 温度测量 激发 像素 光学 分析化学(期刊) 物理 光电子学 化学 电压 色谱法 量子力学
作者
Joel Lòpez Bonilla,Frank Beyrau,Benoît Fond
出处
期刊:Measurement Science and Technology [IOP Publishing]
卷期号:36 (1): 015204-015204
标识
DOI:10.1088/1361-6501/ad846b
摘要

Abstract This work explores the potential of luminescence thermometry to provide temperature imaging with high temperature resolution using the phase-shift method. Phosphor thermometry has been widely used for temperature imaging, especially with the decay-time method. However, the phase-shift method was rarely used. In this approach, excitation is modulated in time, and due to the temperature-dependent luminescence dynamics of the painted luminescent probe, the emission waveform is phase-shifted with respect to the excitation waveform. Initially, a parametric study was performed on the effect of excitation waveform frequency and shape, based on a millisecond-decay time phosphor. The study found that the best precision is achieved with a square waveform at a frequency such that the phase shift is π 4 at the target temperature. Then, this method was compared with the well-established decay-time method. Phase-shift method offered a three-fold improvement in temperature precision under identical peak excitation power. Finally, two-dimensional measurements were demonstrated on a temperature-controlled plate using a high speed CMOS camera, and an LED illumination. A temperature precision of 0.13 ∘ C was obtained at a temporal resolution of 0.25 s and a spatial resolution of around 1 mm, due to a pre-processing binning of 7 by 7 pixels. This technique can be used as a robust alternative to infrared thermometry to probe the thermal processes with small temperature differences.

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