Optical tweezers-assisted cross-correlation analysis for a non-intrusive fluid temperature measurement in microdomains

Chih Ming Cheng; Ming Chih Chang; Yu Fen Chang; Wei Ting Wang; Chien Ting Hsu; Jing Shin Tsai; Chia Yeh Liu; Chien Ming Wu; Keng Liang Ou; Tzu Sen Yang

doi:10.1143/JJAP.51.067002

Optical tweezers-assisted cross-correlation analysis for a non-intrusive fluid temperature measurement in microdomains

Chih Ming Cheng, Ming Chih Chang, Yu Fen Chang, Wei Ting Wang, Chien Ting Hsu, Jing Shin Tsai, Chia Yeh Liu, Chien Ming Wu, Keng Liang Ou, Tzu Sen Yang

研究成果: 雜誌貢獻 › 文章 › 同行評審

4 引文斯高帕斯（Scopus）

摘要

An image-based approach to predict the fluid temperature in microfluidic flow cell is presented. We apply Fourier-based cross-correlation processing to determine the lateral displacement of the optically trapped bead; therefore, both the mean square displacement (MSD) and the diffusion coefficient (D) can be obtained. On the other hand, applying the Stokes-Einstein equation, together with Faxen's law correction, the theoretical relation showed that D is proportional to (T=η), where T and η are temperature and temperature-dependent fluid viscosity, respectively. Hence, the fluid temperature can be determined by MSD-based thermometry.

原文	英語
文章編號	067002
期刊	Japanese Journal of Applied Physics
卷	51
發行號	6 PART 1
DOIs	https://doi.org/10.1143/JJAP.51.067002
出版狀態	已發佈 - 6月 2012

ASJC Scopus subject areas

工程 (全部)
物理與天文學 (全部)

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10.1143/JJAP.51.067002

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title = "Optical tweezers-assisted cross-correlation analysis for a non-intrusive fluid temperature measurement in microdomains",

abstract = "An image-based approach to predict the fluid temperature in microfluidic flow cell is presented. We apply Fourier-based cross-correlation processing to determine the lateral displacement of the optically trapped bead; therefore, both the mean square displacement (MSD) and the diffusion coefficient (D) can be obtained. On the other hand, applying the Stokes-Einstein equation, together with Faxen's law correction, the theoretical relation showed that D is proportional to (T=η), where T and η are temperature and temperature-dependent fluid viscosity, respectively. Hence, the fluid temperature can be determined by MSD-based thermometry.",

author = "Cheng, {Chih Ming} and Chang, {Ming Chih} and Chang, {Yu Fen} and Wang, {Wei Ting} and Hsu, {Chien Ting} and Tsai, {Jing Shin} and Liu, {Chia Yeh} and Wu, {Chien Ming} and Ou, {Keng Liang} and Yang, {Tzu Sen}",

year = "2012",

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doi = "10.1143/JJAP.51.067002",

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T1 - Optical tweezers-assisted cross-correlation analysis for a non-intrusive fluid temperature measurement in microdomains

AU - Cheng, Chih Ming

AU - Chang, Ming Chih

AU - Chang, Yu Fen

AU - Wang, Wei Ting

AU - Hsu, Chien Ting

AU - Tsai, Jing Shin

AU - Liu, Chia Yeh

AU - Wu, Chien Ming

AU - Ou, Keng Liang

AU - Yang, Tzu Sen

PY - 2012/6

Y1 - 2012/6

N2 - An image-based approach to predict the fluid temperature in microfluidic flow cell is presented. We apply Fourier-based cross-correlation processing to determine the lateral displacement of the optically trapped bead; therefore, both the mean square displacement (MSD) and the diffusion coefficient (D) can be obtained. On the other hand, applying the Stokes-Einstein equation, together with Faxen's law correction, the theoretical relation showed that D is proportional to (T=η), where T and η are temperature and temperature-dependent fluid viscosity, respectively. Hence, the fluid temperature can be determined by MSD-based thermometry.

AB - An image-based approach to predict the fluid temperature in microfluidic flow cell is presented. We apply Fourier-based cross-correlation processing to determine the lateral displacement of the optically trapped bead; therefore, both the mean square displacement (MSD) and the diffusion coefficient (D) can be obtained. On the other hand, applying the Stokes-Einstein equation, together with Faxen's law correction, the theoretical relation showed that D is proportional to (T=η), where T and η are temperature and temperature-dependent fluid viscosity, respectively. Hence, the fluid temperature can be determined by MSD-based thermometry.

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Optical tweezers-assisted cross-correlation analysis for a non-intrusive fluid temperature measurement in microdomains

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