Pornthep Pongchalee scite author profile

The elasticity mapping of individual layers in the cornea using non-destructive elastography techniques advances diagnosis and monitoring of ocular diseases and treatments in ophthalmology. However, transient Lamb waves, currently used in most dynamic optical coherence and ultrasound elastography techniques, diminish the translation of wave speed into shear/Young’s modulus. Here, we present reverberant 3D optical coherence elastography (Rev3D-OCE), a novel approach leveraging the physical properties of diffuse fields in detecting elasticity gradients not only in the lateral direction, but also along the depth axis of the cornea. A Monte Carlo analysis, finite element simulations, and experiments in layered phantoms are conducted to validate the technique and to characterize the axial elastography resolution. 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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Simplified methods of design, implementation, and characterization of a spectrometer-based FD-OCT

Meemon

Palawong

Pongchalee

2014

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In this work, we report simple optical design of a high speed and high spectral resolution spectrometer based on the first order calculation. The spectrometer was design and optimized for high speed detection of spectral interference signal to be used as a detection unit of our developed Frequency Domain Optical Coherence Tomography (FD-OCT). We then detailed the hardware implementation of both the spectrometer and the FD-OCT system in our laboratory at Suranaree University of Technology, Thailand, by utilizing only off-the-shelf optical components. The spectrometer is capable of capturing of the spectral interference fringes at up to the camera limit of 130,000 spectra per second, enabling crosssectional microscopic imaging of biological sample of more than 100 frames per second (for a 1000 depth scans per frame). In addition, we reported several simple yet robust techniques for characterization of the system performance in the context of FD-OCT 3D imaging, such as an effective lateral resolution, depth scale calibration, and depth penetration limit. The development of this high speed and high resolution spectrometer is part of our ultimate goal to develop a prototype of a research-grade FD-OCT system that provides better imaging speed and resolution in comparing to available commercial OCT systems at relatively lower cost. The design of low-cost, high performance FD-OCT system would make the technology widely accessible to other researchers in the field of biomedical research and related areas in Thailand in the next few years.

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Live embryo detection using a non-contact heart rate measurement of chicken eggs

Sutapun¹,

Bakunda²,

Pongchalee³

2018

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Sub-wavelength effects in a free electron laser oscillator

Pongchalee¹,

McNeil²

2023

Opt. Express

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Previous simulation studies of cavity based free electron lasers (FELs) have utilised models which average the optical field in the FEL interaction over an integer number of radiation wavelengths. In this paper, two unaveraged simulation codes, OPC and Puffin, are combined to enable modelling, for the first time, of a cavity based FEL at the sub-wavelength scale. This enables modelling of effects such as coherent spontaneous emission from the electron beam and sub-wavelength cavity length detuning. A cavity FEL operating in the mid-infrared is modelled and it is shown that, for small sub-wavelength cavity detunings, the FEL can preferentially lase at the third harmonic of the fundamental FEL wavelength. This novel result suggests other modes of operation may be possible and opens up cavity-based FEL operation to investigation of further, potentially useful, modes of operation.

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Alternative Fusing Algorithm for High Speed Gabor Domain Optical Coherence Microscopy

Meemon

Pongchalee

Widjaja

et al. 2016

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