Fiber-based Broadband Ultrasound Detector for Photoacousitc Imaging

被引:0
作者
Gruen, Hubert [1 ]
Berer, Thomas [1 ]
Felbermayer, Karoline [1 ]
Burgholzer, Peter [1 ]
Paltauf, Guenther [2 ]
机构
[1] RECENDT Res Ctr Non Destruct Testing GmbH, Linz, Austria
[2] Karl Franzens Univ Graz, Dept Phys, Graz, Austria
来源
21ST INTERNATIONAL CONFERENCE ON OPTICAL FIBER SENSORS | 2011年 / 7753卷
基金
奥地利科学基金会;
关键词
fiber-based interferometer; photoacoustic imaging; polymer fiber; ultrasonic detector; TOMOGRAPHY;
D O I
10.1117/12.884647
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
Photoacoustic Imaging is an emerging imaging technology mainly for biology and medicine which combines the advantages of diffuse optical imaging (high contrast) and ultrasonic imaging (high spatial resolution). A short laser pulse excites the sample. The absorbed energy causes thermoelastic expansion and thereby launches broadband ultrasonic waves. For collecting these waves we introduced integrating line detectors which integrate the pressure along one direction. A fiber-based approach was realized using an interferometer integrated either in glass fibers or polymer fibers. In this work we present the proof of principle of this approach.
引用
收藏
页数:4
相关论文
共 50 条
[31]   Graphene-based ultrasonic detector for photoacoustic imaging [J].
Yang, Fan ;
Song, Wei ;
Zhang, Chonglei ;
Fang, Hui ;
Min, Changjun ;
Yuan, Xiaocong .
YOUNG SCIENTISTS FORUM 2017, 2018, 10710
[32]   Physically-based likelihood for ultrasound imaging [J].
Fox, C ;
Nicholls, GK .
BAYESIAN INFERENCE FOR INVERSE PROBLEMS, 1998, 3459 :92-99
[33]   Comparative Analysis of Fiber-Based and Powder-Based Porous Transport Layers in Water Electrolysis for Green Hydrogen [J].
Liu, Jiang ;
Yang, Yingying ;
Kerner, Felix ;
Schroeder, Daniel .
ACS SUSTAINABLE CHEMISTRY & ENGINEERING, 2024, 12 (50) :18077-18089
[34]   Fiber-based endoscopes for 3D combustion measurements: View registration and spatial resolution [J].
Kang, MinWook ;
Wu, Yue ;
Ma, Lin .
COMBUSTION AND FLAME, 2014, 161 (12) :3063-3072
[35]   Speed-of-sound correction for photoacoustic and laser-ultrasound imaging with an integrating cylindrical detector [J].
Paltauf, Guenther ;
Wurzinger, Gerhild ;
Nuster, Robert .
OPTO-ACOUSTIC METHODS AND APPLICATIONS IN BIOPHOTONICS II, 2015, 9539
[36]   Low-cost parallelization of optical fiber based detectors for photoacoustic imaging [J].
Bauer-Marschallinger, Johannes ;
Felbermayer, Karoline ;
Hochreiner, Armin ;
Gruen, Hubert ;
Paltauf, Guenther ;
Burgholzer, Peter ;
Berer, Thomas .
PHOTONS PLUS ULTRASOUND: IMAGING AND SENSING 2013, 2013, 8581
[37]   Multi-modality photoacoustic/ultrasound imaging based on a commercial ultrasound platform [J].
Pang, Zhan ;
Wang, Yike ;
Wang, Yongchao ;
Sun, Zezou ;
Qi, Weizhi ;
Xi, Lei .
OPTICS LETTERS, 2021, 46 (17) :4382-4385
[38]   Noncontact ultrasound sensing based on Mach-Zehnder homodyne interferometer for photoacoustic imaging [J].
Long, Xing ;
Hu, Yicheng ;
Wang, Yibing ;
Li, Changhui .
CHINESE OPTICS LETTERS, 2024, 22 (03)
[39]   Photoacoustic imaging systems based on clinical ultrasound platform [J].
Park, Eun-Yeong ;
Lee, Haeni ;
Han, Seongyi ;
Kim, Chulhong ;
Kim, Jeesu .
EXPERIMENTAL BIOLOGY AND MEDICINE, 2022, 247 (07) :551-560
[40]   Optimizing light delivery through fiber bundle in photoacoustic imaging with clinical ultrasound system: Monte Carlo simulation and experimental validation [J].
Sivasubramanian, Kathyayini ;
Periyasamy, Vijitha ;
Wen, Kew Kok ;
Pramanik, Manojit .
JOURNAL OF BIOMEDICAL OPTICS, 2017, 22 (04)
12345