All-optical photoacoustic microscopy 02.19

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1. Chen, S.-L., Guo, L. J., & Wang, X. (2015). All-optical photoacoustic microscopy. Photoacoustics, 3(4), 143–150. doi:10.1016/j.pacs.2015.11.001

2. Sathiyamoorthy, K., Strohm, E. M., & Kolios, M. C. (2017). Low-power noncontact photoacoustic microscope for bioimaging applications. Journal of Biomedical Optics, 22(4), 046001. doi:10.1117/1.jbo.22.4.046001

3. Leiss-Holzinger, E., Bauer-Marschallinger, J., & Berer, T. (2017). Multimodal non-contact photoacoustic imaging and optical coherence tomography using all optical detection . Multimodal Biomedical Imaging XII. doi:10.1117/12.2250863

4. Buj, C., Horstmann, J., Münter, M., & Brinkmann, R. (2015). Speckle-based off-axis holographic detection for non-contact photoacoustic tomography. Current Directions in Biomedical Engineering, 1(1). doi:10.1515/cdbme-2015-0088

5. Wang, D., Wang, Y., Wang, W., Luo, D., Chitgupi, U., Geng, J., … Xia, J. (2016). Deep tissue photoacoustic computed tomography with a fast and compact laser system. Biomedical Optics Express, 8(1), 112. doi:10.1364/boe.8.000112

6. Dong, B., Sun, C., & Zhang, H. F. (2017). Optical Detection of Ultrasound in Photoacoustic Imaging. IEEE Transactions on Biomedical Engineering, 64(1), 4–15. doi:10.1109/tbme.2016.2605451

7. Hochreiner, A., Bauer-Marschallinger, J., Burgholzer, P., Jakoby, B., & Berer, T. (2013). Non-contact photoacoustic imaging using a fiber based interferometer with optical amplification. Biomedical Optics Express, 4(11), 2322.doi:10.1364/boe.4.002322

8. Horstmann, J., Spahr, H., Buj, C., Münter, M., & Brinkmann, R. (2015). Full-field speckle interferometry for non-contact photoacoustic tomography. Physics in Medicine and Biology, 60(10), 4045–4058. doi:10.1088/0031-9155/60/10/4045

9. Lu, J., Gao, Y., Ma, Z., Zhou, H., Wang, R. K., & Wang, Y. (2017). In vivo photoacoustic imaging of blood vessels using a homodyne interferometer with zero-crossing triggering. Journal of Biomedical Optics, 22(3), 036002. doi:10.1117/1.jbo.22.3.036002

10. Yexian Qin, Ingram, P., Wang, X., Tao Qin, Xin, H., & Witte, R. S. (2014). Non-contact thermoacoustic imaging based on laser and microwave vibrometry. 2014 IEEE International Ultrasonics Symposium. doi:10.1109/ultsym.2014.0253

11. Tian, C., Feng, T., Wang, C., Liu, S., Cheng, Q., Oliver, D. E., … Xu, G. (2016). Non-contact Photoacoustic Imaging Using A Commercial Heterodyne Interferometer. IEEE Sensors Journal, 1–1. doi:10.1109/jsen.2016.2611569

12. Lengenfelder, B., Mehari, F., Hohmann, M., Heinlein, M., Chelales, E., Waldner, M. J., … Schmidt, M. (2019). Remote photoacoustic sensing using speckle-analysis. Scientific Reports, 9(1). doi:10.1038/s41598-018-38446-x

Термоакустика - THERMOACOUSTIC

THERMOACOUSTIC IMAGING OF FINGER JOINTS AND BONES: A FEASIBILITY STUDY

X Xu, L Huang, Y Ling, H Jiang - Proceedings of the 2016 …, 2017 - World Scientific

Http://sci-hub.tw/10.1142/9789813145870_0033

7.2 M. H. Xu and L. H. V. Wang, “Photoacoustic imaging in biomedicine,” Rev. Sci.

Instrum . 2006; 77(4): 041101

Http://sci-hub.tw/https://doi.org/10.1063/1.2195024

Omar, M., Kellnberger, S., Sergiadis, G., Razansky, D., Ntziachristos, V. “Nearfield

thermoacoustic imaging with transmission line pulsers,” Medical Physics 2012;

39 (7): 4460-4466.

https://s3.amazonaws.com/academia.edu.documents/43628589/Near-field_thermoacoustic_imaging_with_t20160311-25086-66ylut.pdf?AWSAccessKeyId=AKIAIWOWYYGZ2Y53UL3A&Expires=1520329566&Signature=dgLrZZAc751QlOYkV11ms5jI0fg%3D&response-content-disposition=inline%3B%20filename%3DNear-field_thermoacoustic_imaging_with_t.pdf

Quantitative thermoacoustic tomography: Recovery of conductivity maps of heterogeneous media

L Huang, L Yao, L Liu, J Rong, H Jiang - Applied Physics Letters, 2012 - aip.scitation.org

Http://sci-hub.tw/10.1063/1.4772484

Ji, J., Lou, C.G., Yang, S.H., Xing, D. “Three-dimensional thermoacoustic imaging

for early breast cancer detection,” Medical Physics 2012; 39(11), 6738-6744.

Http://sci-hub.tw/10.1118/1.4757923

High resolution imaging with impulse based thermoacoustic tomography

Stephan Kellnberger, Amir Hajiaboli, George Sergiadis, Daniel Razansky, and Vasilis Ntziachristos

Http://sci-hub.tw/10.1117/12.889483

Термоакустика ссылки– Thermoacoustic imaging 2.10.18

Winkler, S. A., Picot, P. A., Thornton, M. M., & Rutt, B. K. (2016). Direct SAR mapping by thermoacoustic imaging: A feasibility study. Magnetic Resonance in Medicine, 78(4), 1599–1606. doi:10.1002/mrm.26517

sci-hub.tw/10.1002/mrm.26517

Xu, L., & Wang, X. (2018). A Novel Microwave Power Deposition Monitoring Method by Thermoacoustic Imaging (invited paper). 2018 Cross Strait Quad-Regional Radio Science and Wireless Technology Conference (CSQRWC). doi:10.1109/csqrwc.2018.8455474
Daschewski, M., Boehm, R., Prager, J., Kreutzbruck, M., & Harrer, A. (2013). Physics of thermo-acoustic sound generation. Journal of Applied Physics, 114(11), 114903. doi:10.1063/1.4821121

Thermoacoustic imaging 09.2018

Thermoacoustic lmaging, Microwave. Hyperthermia

1. Saraswat, S., Tak, J., Liang, М., Lyu, С., Witte, R. S., & Xin, Н. (2018). Towards Study on Thermoacoustic lmaging Guided Focused Microwave Therapy for Breast Cancer Tтeatment. 2018 IEEE/MTT-S lnternational Microwave Symposium - IMS. doi:10.1109/mwsym.2018.8439134

2. Celik, N., Gagarin, R., Huang, G. С., lskander, М. F., & Berg, В. W. (2014). Microwave Stethoscope: Development and Benchmarking of а Vital Signs Sensor Using Computer Controlled Phantoms and Human Studies. IEEE Transactions on Biomedical Engineering, 61(8), 2341-2349. doi:10.1109/tbme.2013.2241763 sci-hub.tw/10.1109/TBMЕ.2013.2241763

3. Momenroodaki, Р., Haines, W., Fromandi, М., & Popovic, Z. (2018). Noninvasive lnternal Body Temperature Tracking With Near-Field Microwave Radiometry. IEEE Transactions on Microwave Theory and Techniques, 66(5), 2535-2545. doi:10.1109/tmtt.2017.2776952

4. lbelli, Т., Templeton, S., & Levi-Polyachenko, N. (2018). Progress on utilizing hyperthermia for mitigating bacterial infections. lnternational Journal of Hyperthermia, 34(2), 144-156. doi:10.1080/02656736.2017.1369173

5. Gazel, D., & Y1lmaz, М. (2018). Are infectious diseases and microЬiology new fields for thermal therapy research? lnternational Journal of Hyperthermia, 1-7.

doi:10.1080/02 656736.2018.1440015

6. Uliana, J. Н., Sampaio, D. R. Т., Carneiro, А. А. 0., & Pavan, Т. Z. (2018). Photoacoustic-based thermal image formation and optimization using an evolutionary genetic algorithm. Research on Biomedical Engineering, 34(2), 147-156. doi:10.1590/2446-4740.00218

7. Zhong, Н., Duan, Т., Lan, Н., Zhou, М., & Gao, F. (2018). Review of Low-Cost Photoacoustic Sensing and lmaging Based on Laser Diode and Light-Emitting Diode. Sensors, 18(7), 2264. doi:10.3390/s18072264

8. Ayestaran, R. G. (2018). Fast Near-Field Multifocusing of Antenna Arrays lncluding Element Coupling Using Neural Networks. IEEE Antennas and Wireless Propagation Letters, 17(7), 1233-1237. doi:10.1109/lawp.2018.2840540

9. Kowalski, М. Е., & Jin, J.-M. (2003). А temperature- based feedback control system for electromagnetic phased-array hyperthermia: theory and simulation. Physics in Medicine and Biology, 48(5), 633-651. doi:10.1088/0031-9155/48/5/306

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20.02.2019

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