Model for the description of remote photoacoustic sensing using speckle-analysis
Lengenfelder B, Hohmann M, Klämpfl F, Zam A, Weiß M, Rupitsch S, Zalevsky Z, Schmidt M (2019)
Publication Language: English
Publication Type: Conference contribution, Conference Contribution
Publication year: 2019
Conference Proceedings Title: Opto-Acoustic Methods and Applications in Biophotonics IV; 110771I (2019)
Event location: Munich
DOI: 10.1117/12.2526593
Abstract
Remote photoacoustic tomography by speckle-analysis which is based on the measurement of the surface tilt is interesting for a lot of medical applications such as endoscopy or wound imaging. In this work, a new model which is capable to simulate the resulting surface tilt after photoacoustic excitation is presented. A Monte Carlo simulation is coupled to a stress simulation which allows the determination of the temporal surface deformation and the resulting tilt. A first comparison to experimental results from literature is done and discussed. In future, this model might help to optimize the speckle-sensing technique for photoacoustic signal detection. Furthermore, it could be used to develop and test image reconstruction algorithms.
Authors with CRIS profile
Benjamin Lengenfelder
Lehrstuhl für Photonische Technologien
Martin Hohmann
Lehrstuhl für Photonische Technologien
Florian Klämpfl
Lehrstuhl für Photonische Technologien
Azhar Zam
Graduiertenzentrum der FAU
Manuel Weiß
Lehrstuhl für Autonome Systeme und Mechatronik
Stefan Rupitsch
Lehrstuhl für Autonome Systeme und Mechatronik
Michael Schmidt
Lehrstuhl für Photonische Technologien
Involved external institutions
Israel (IL)How to cite
APA:
Lengenfelder, B., Hohmann, M., Klämpfl, F., Zam, A., Weiß, M., Rupitsch, S.,... Schmidt, M. (2019). Model for the description of remote photoacoustic sensing using speckle-analysis. In SPIE (Eds.), Opto-Acoustic Methods and Applications in Biophotonics IV; 110771I (2019). Munich, DE.
MLA:
Lengenfelder, Benjamin, et al. "Model for the description of remote photoacoustic sensing using speckle-analysis." Proceedings of the European Conferences on Biomedical Optics, Munich Ed. SPIE, 2019.
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