Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation
In recent years, photoacoustic imaging has found vast applications in biomedical imaging. Photoacoustic imaging has high optical contrast and high ultrasound resolution allowing deep tissue non-invasive imaging beyond the optical diffusion limit. Q-switched lasers are extensively used in photoacoust...
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sg-ntu-dr.10356-1523992023-12-29T06:51:53Z Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation Asadollahi, Amir Latifi, Hamid Pramanik, Manojit Qazvini, Hamed Rezaei, Ali Nikbakht, Hamed Abedi, Abolfazl School of Chemical and Biomedical Engineering Engineering::Bioengineering High Speed Data Acquisition System Non-invasive Imaging In recent years, photoacoustic imaging has found vast applications in biomedical imaging. Photoacoustic imaging has high optical contrast and high ultrasound resolution allowing deep tissue non-invasive imaging beyond the optical diffusion limit. Q-switched lasers are extensively used in photoacoustic imaging due to the availability of high energy and short laser pulses, which are essential for high-resolution photoacoustic imaging. In most cases, this type of light source suffers from pulse peak-power energy variations and timing jitter noise, resulting in uncertainty in the output power and arrival time of the laser pulses. These problems cause intensity degradation and temporal displacement of generated photoacoustic signals which in turn deteriorate the quality of the acquired photoacoustic images. In this study, we used a high-speed data acquisition system in combination with a fast photodetector and a software-based approach to capture laser pulses precisely in order to reduce the effect of timing jitter and normalization of the photoacoustic signals based on pulse peak-powers simultaneously. In the experiments, maximum axial accuracy enhancement of 14 µm was achieved in maximum-amplitude projected images on XZ and YZ planes with ±13.5 ns laser timing jitter. Furthermore, photoacoustic signal enhancement of 77% was obtained for 75% laser pulses peak-power stability. Published version 2021-09-02T08:41:18Z 2021-09-02T08:41:18Z 2021 Journal Article Asadollahi, A., Latifi, H., Pramanik, M., Qazvini, H., Rezaei, A., Nikbakht, H. & Abedi, A. (2021). Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation. Biomedical Optics Express, 12(4), 1834-1845. https://dx.doi.org/10.1364/BOE.419564 2156-7085 https://hdl.handle.net/10356/152399 10.1364/BOE.419564 33996201 2-s2.0-85103290013 4 12 1834 1845 en Biomedical Optics Express © 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement. Users may use, reuse, and build upon the article, or use the article for text or data mining, so long as such uses are for non-commercial purposes and appropriate attribution is maintained. All other rights are reserved. application/pdf |
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Engineering::Bioengineering High Speed Data Acquisition System Non-invasive Imaging Asadollahi, Amir Latifi, Hamid Pramanik, Manojit Qazvini, Hamed Rezaei, Ali Nikbakht, Hamed Abedi, Abolfazl Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation |
| description |
In recent years, photoacoustic imaging has found vast applications in biomedical imaging. Photoacoustic imaging has high optical contrast and high ultrasound resolution allowing deep tissue non-invasive imaging beyond the optical diffusion limit. Q-switched lasers are extensively used in photoacoustic imaging due to the availability of high energy and short laser pulses, which are essential for high-resolution photoacoustic imaging. In most cases, this type of light source suffers from pulse peak-power energy variations and timing jitter noise, resulting in uncertainty in the output power and arrival time of the laser pulses. These problems cause intensity degradation and temporal displacement of generated photoacoustic signals which in turn deteriorate the quality of the acquired photoacoustic images. In this study, we used a high-speed data acquisition system in combination with a fast photodetector and a software-based approach to capture laser pulses precisely in order to reduce the effect of timing jitter and normalization of the photoacoustic signals based on pulse peak-powers simultaneously. In the experiments, maximum axial accuracy enhancement of 14 µm was achieved in maximum-amplitude projected images on XZ and YZ planes with ±13.5 ns laser timing jitter. Furthermore, photoacoustic signal enhancement of 77% was obtained for 75% laser pulses peak-power stability. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Asadollahi, Amir Latifi, Hamid Pramanik, Manojit Qazvini, Hamed Rezaei, Ali Nikbakht, Hamed Abedi, Abolfazl |
| format |
Article |
| author |
Asadollahi, Amir Latifi, Hamid Pramanik, Manojit Qazvini, Hamed Rezaei, Ali Nikbakht, Hamed Abedi, Abolfazl |
| author_sort |
Asadollahi, Amir |
| title |
Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation |
| title_short |
Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation |
| title_full |
Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation |
| title_fullStr |
Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation |
| title_full_unstemmed |
Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation |
| title_sort |
axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/152399 |
| _version_ |
1787136739404414976 |