Solution Concentration and Temperature Measurements by Long-path Optical Coherence Tomography

International Conference on Photonics, Optics and Laser Technology Pub Date : 1900-01-01 DOI:10.5220/0009159801510156

T. Shiina

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引用次数: 1

Abstract

Long path time domain OCT was developed and applied to evaluate a certain solution under the consideration of concentration and temperature. Long path TD-OCT has the measurement range of 100mm and the resolution of position decision of 1m. Optical characteristics of the solution is represented as group refractive index by Long path TD-OCT, and it depends on solution concentration and temperature. In this study, the experimental result of the diluted alcohol solution was compared with the plural theoretical models. As a result, the measurement accuracy was confirmed with the refractive index error of less than 0.0001. Long path TD-OCT has potential to evaluate the target solution with volume, and the experiment was proceeded to monitor the spatial fluctuation process. As a result, the unique phenomenon was observed in the model experiment of partially different refractive index sample. The OCT signal had the change of knife-edge effect at the boundary of refractive index. More fundamental experiment was conducted to observe the phenomenon precisely. Now the theoretical approach was started to understand the phenomenon.

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用长程光学相干层析成像测量溶液浓度和温度

开发了长路径时域OCT，并将其应用于考虑浓度和温度的某一溶液的评价。长径TD-OCT的测量范围为100mm，定位分辨率为1m。溶液的光学特性用长程TD-OCT表示为群折射率，它与溶液浓度和温度有关。在本研究中，将稀释酒精溶液的实验结果与多元理论模型进行了比较。结果表明，折射率误差小于0.0001，测量精度得到了证实。长径TD-OCT具有用体积评价目标溶液的潜力，并进行了监测空间波动过程的实验。在部分不同折射率样品的模型实验中，观察到独特的现象。OCT信号在折射率边界处具有刀口效应的变化。为了更精确地观察这一现象，人们进行了更基础的实验。现在开始用理论方法来理解这种现象。

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International Conference on Photonics, Optics and Laser Technology

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