Optically-Trapped Particle Temperature Extraction with Hot Brownian Dynamics

Paden B. Roder; Bennett E. Smith; Peter J. Pauzauskie; Peter J. Pauzauskie

doi:10.1364/OTA.2015.OtM2E.4

Optics in the Life Sciences
OSA Technical Digest (online) (Optica Publishing Group, 2015),
paper OtM2E.4
•https://doi.org/10.1364/OTA.2015.OtM2E.4

Optically-Trapped Particle Temperature Extraction with Hot Brownian Dynamics

Paden B. Roder, Bennett E. Smith, and Peter J. Pauzauskie

Optical Trapping Applications 2015

Vancouver Canada
12–15 April 2015
ISBN: 978-1-55752-954-1

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Optical Manipulation Fundamentals and Technologies I (OtM2E)

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P. B. Roder, B. E. Smith, and P. J. Pauzauskie, "Optically-Trapped Particle Temperature Extraction with Hot Brownian Dynamics," in Optics in the Life Sciences, OSA Technical Digest (online) (Optica Publishing Group, 2015), paper OtM2E.4.

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Abstract

Combining hot Brownian motion theory with forward-scattered light analysis, we show a method for determining temperatures of optically-trapped nanoparticles in nonisothermal solvents. Results for trapped silica microspheres in D₂O show heating to 35.9 °C.

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