Single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging
Photoacoustic sensing and imaging techniques have been studied widely to explore optical absorption contrast based on nanosecond laser illumination. In this paper, we report a long laser pulse induced dual photoacoustic (LDPA) nonlinear effect, which originates from unsatisfied stress and thermal co...
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sg-ntu-dr.10356-836422020-03-07T13:57:29Z Single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging Gao, Fei Feng, Xiaohua Zhang, Ruochong Liu, Siyu Ding, Ran Kishor, Rahul Zheng, Yuanjin School of Electrical and Electronic Engineering Photoacoustics Imaging and sensing Photoacoustic sensing and imaging techniques have been studied widely to explore optical absorption contrast based on nanosecond laser illumination. In this paper, we report a long laser pulse induced dual photoacoustic (LDPA) nonlinear effect, which originates from unsatisfied stress and thermal confinements. Being different from conventional short laser pulse illumination, the proposed method utilizes a long square-profile laser pulse to induce dual photoacoustic signals. Without satisfying the stress confinement, the dual photoacoustic signals are generated following the positive and negative edges of the long laser pulse. More interestingly, the first expansion-induced photoacoustic signal exhibits positive waveform due to the initial sharp rising of temperature. On the contrary, the second contraction-induced photoacoustic signal exhibits exactly negative waveform due to the falling of temperature, as well as pulse-width-dependent signal amplitude. An analytical model is derived to describe the generation of the dual photoacoustic pulses, incorporating Gruneisen saturation and thermal diffusion effect, which is experimentally proved. Lastly, an alternate of LDPA technique using quasi-CW laser excitation is also introduced and demonstrated for both super-contrast in vitro and in vivo imaging. Compared with existing nonlinear PA techniques, the proposed LDPA nonlinear effect could enable a much broader range of potential applications. Published version 2017-06-13T06:06:01Z 2019-12-06T15:27:20Z 2017-06-13T06:06:01Z 2019-12-06T15:27:20Z 2017 Journal Article Gao, F., Feng, X., Zhang, R., Liu, S., Ding, R., Kishor, R., et al. (2017). Single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging. Scientific Reports, 7, 626-. 2045-2322 https://hdl.handle.net/10356/83642 http://hdl.handle.net/10220/42673 10.1038/s41598-017-00725-4 en Scientific Reports © 2017 The Author(s) (Nature Publishing Group). This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ 12 p. application/pdf |
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Photoacoustics Imaging and sensing |
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Photoacoustics Imaging and sensing Gao, Fei Feng, Xiaohua Zhang, Ruochong Liu, Siyu Ding, Ran Kishor, Rahul Zheng, Yuanjin Single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging |
| description |
Photoacoustic sensing and imaging techniques have been studied widely to explore optical absorption contrast based on nanosecond laser illumination. In this paper, we report a long laser pulse induced dual photoacoustic (LDPA) nonlinear effect, which originates from unsatisfied stress and thermal confinements. Being different from conventional short laser pulse illumination, the proposed method utilizes a long square-profile laser pulse to induce dual photoacoustic signals. Without satisfying the stress confinement, the dual photoacoustic signals are generated following the positive and negative edges of the long laser pulse. More interestingly, the first expansion-induced photoacoustic signal exhibits positive waveform due to the initial sharp rising of temperature. On the contrary, the second contraction-induced photoacoustic signal exhibits exactly negative waveform due to the falling of temperature, as well as pulse-width-dependent signal amplitude. An analytical model is derived to describe the generation of the dual photoacoustic pulses, incorporating Gruneisen saturation and thermal diffusion effect, which is experimentally proved. Lastly, an alternate of LDPA technique using quasi-CW laser excitation is also introduced and demonstrated for both super-contrast in vitro and in vivo imaging. Compared with existing nonlinear PA techniques, the proposed LDPA nonlinear effect could enable a much broader range of potential applications. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Gao, Fei Feng, Xiaohua Zhang, Ruochong Liu, Siyu Ding, Ran Kishor, Rahul Zheng, Yuanjin |
| format |
Article |
| author |
Gao, Fei Feng, Xiaohua Zhang, Ruochong Liu, Siyu Ding, Ran Kishor, Rahul Zheng, Yuanjin |
| author_sort |
Gao, Fei |
| title |
Single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging |
| title_short |
Single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging |
| title_full |
Single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging |
| title_fullStr |
Single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging |
| title_full_unstemmed |
Single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging |
| title_sort |
single laser pulse generates dual photoacoustic signals for differential contrast photoacoustic imaging |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/83642 http://hdl.handle.net/10220/42673 |
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1681040676477730816 |