P
Panomsak Meemon
Researcher at Suranaree University of Technology
Publications - 80
Citations - 942
Panomsak Meemon is an academic researcher from Suranaree University of Technology. The author has contributed to research in topics: Optical coherence tomography & Microscope. The author has an hindex of 16, co-authored 69 publications receiving 840 citations. Previous affiliations of Panomsak Meemon include University of Central Florida & University of Rochester.
Papers
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Gabor-based fusion technique for Optical Coherence Microscopy
TL;DR: The image acquisition enabled by this optical probe when combined with an automatic data fusion method developed and described here to produce an in-focus high resolution image throughout the imaging depth of the sample is reported on.
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Experimental investigations of the scanning functions of galvanometer-based scanners with applications in OCT
TL;DR: The three most common profiles of scanning functions for galvanometer-based scanners (GSs): the sawtooth, triangular and sinusoidal functions are analyzed and certain rules of thumb are deduced to make the best out of the galvoscanner.
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Reverberant 3D optical coherence elastography maps the elasticity of individual corneal layers
TL;DR: Experiments in ex vivo porcine cornea at different intraocular pressures reveal that Rev3D-OCE enables the elastic characterization of single layers that matches the anatomical description of corneal layers with unprecedented contrast in the dynamic OCE field.
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Optical Coherence Tomography Enabling Non Destructive Metrology of Layered Polymeric GRIN Material
Panomsak Meemon,Panomsak Meemon,Jianing Yao,Kye-Sung Lee,Kevin P. Thompson,Kevin P. Thompson,Michael Ponting,Eric Baer,Jannick P. Rolland +8 more
TL;DR: In this article, optical coherence tomography (OCT) is used to visualize and quantify characteristics of the material throughout the manufacturing process to quantify 3D film thickness and homogeneity.
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Comparative study of shear wave-based elastography techniques in optical coherence tomography.
TL;DR: Results suggest that in the presence of strong internal reflections, single source methods are more accurate and less variable when compared to the two-actuator methods.