Experimental Evaluation of Photoacoustic Coded Excitation Using Unipolar Golay Codes.
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| Title: | Experimental Evaluation of Photoacoustic Coded Excitation Using Unipolar Golay Codes. |
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| Authors: | Mienkina, Martin P., Friedrich, Claus-Stefan, Gerhardt, Nils C., Wilkening, Wilko G., Hofmann, Martin R., Schmitz, Georg |
| Source: | IEEE Transactions on Ultrasonics Ferroelectrics & Frequency Control; Jul2010, Vol. 57 Issue 7, p1583-1593, 11p |
| Subject Terms: | PHOTOACOUSTIC spectroscopy, IMAGING systems, LASERS, DIODES, ULTRASONICS |
| Abstract: | Q-switched Nd:YAG lasers are commonly used as light sources for photoacoustic imaging. However, laser diodes are attractive as an alternative to Nd:YAG lasers because they are less expensive and more compact. Although laser diodes deliver about three orders of magnitude less light pulse energy than Nd:YAG lasers (tens of microjoules compared with tens of millijoules), their pulse repetition frequency (PRF) is four to five orders of magnitude higher (up to 1 MHz compared with tens of hertz); this enables the use of averaging to improve SNR without compromising the image acquisition rate. In photoacoustic imaging, the PRF is limited by the maximum acoustic time-of-flight. This limit can be overcome by using coded excitation schemes in which the coding eliminates ambiguities between echoes induced by subsequent pulses. To evaluate the benefits of photoacoustic coded excitation (PACE), the performance of unipolar Golay codes is investigated analytically and validated experimentally. PACE imaging of a copper slab using laser diodes at a PRF of 1 MHz and a modified clinical ultrasound scanner is successfully demonstrated. Considering laser safety regulations and taking into account a comparison between a laser diode system and Nd:YAG systems with respect to SNR, we conclude that PACE is feasible for small animal imaging. [ABSTRACT FROM AUTHOR] |
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| Database: | Biomedical Index |
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